RU2695551C1 - Rotary butterfly gate with triple eccentricity - Google Patents

Abstract

FIELD: reinforcement bars production.

SUBSTANCE: invention relates to pipeline valves and can be used in gas, oil and chemical industry. Rotary butterfly valve comprises housing accommodating seat with sealing surface and disc-shaped shutter secured on drive shaft fitted in said case perpendicular to axis of symmetry of its through hole offset relative to said axis. Seat is detachable in the form of a metal ring and is equipped with a device for its fixation from axial movement and elastic elements. Said means of seat fixation are made in the form of external and internal stops on both sides welded to the body of the bolt. Outer stop on the side of the open end of the bolt is made in the form of a ring. Seat is installed with possibility of limited axial movement within the gap δ = S-T, where S is distance between inner and outer thrusts along the shutter axis; T is the thickness of the seat, on the surface of contact with the body of the gate of which there are two radial elastic rings and one end elastic ring, which is installed in the zone of connection of the seat and the external stop. All resilient rings are made of polymer materials with possibility of maintaining contact between disc compaction and seat at full compression to limit state of end elastic ring at maximum gap δ defined by specified cross-section profile of end elastic ring of seat.

EFFECT: improving reliability of closing by ensuring continuity of seat contact with gate valve in closed state of gate at direction of medium flow to disk from sealing side.

10 cl, 6 dwg

Description

The invention relates to pipe fittings and can be used in the gas, oil, chemical industry.

Butterfly valves are designed to be installed as a shut-off and locking-regulating device on pipelines of liquid and gaseous media, in relation to which the materials used are corrosion-resistant.

Shutters are characterized by:

- on the execution of the locking organ;

- according to the type of connection to the pipeline, as: flanged; under welding; interflange;

-on the seal materials in the shutter:

 - with elastic seal; metal-to-metal seal;

- according to the type of drive control: (electric; pneumatic; hydraulic; manual; manual with gear; with remote control).

   The principle of operation of a disk rotary shutter is to block the flow of medium by turning the disk.

Contact between the disk seal and the seat occurs when the disk is locked.

The valve during installation on the pipeline is placed combining the arrow on the housing with the direction of flow of the working medium. Principle of operation: the medium flow presses on the disk from the shaft side and additionally, by the working pressure of the medium, seals adjacent surfaces.

Everything changes with the possibility of changing the direction of flow.

If the flow is directed to the disk from the seal side, the medium pressure will tend to squeeze the disk seal from the seat. The disk together with the seal will be displaced by the size of the clearances and backlash in the shaft bearings, thereby reducing the tightness at the place where the disk seal fits to the housing seat. These gaps are small, but at high pressures they will be enough to lose the shutter tightness.

   The butterfly valve with triple eccentricity is most often manufactured with a fixed seat, due to which it has one-sided tightness. The saddle of such a shutter is made at the same time with the body of cast or forged billet, which excludes the possibility of its quick replacement or repair. Making a shutter with a fixed seat is less labor intensive and metal-intensive.

To prevent loss of tightness, the shutter seat is movable or the force of pressing the disk against the seat is increased, increasing the torque of the drive unit and strengthening the power structures. With an increase in the closing moment of the shutter, its working life decreases.

   In the claimed technical solution, a butterfly valve with a triple eccentricity with a movable seat is considered, metal-to-metal sealing, connection to the pipeline and type of control can be any of the above.

Known rotary butterfly valve with triple eccentricity, comprising a housing in which a saddle with a sealing surface is located, and a butterfly valve mounted on a drive shaft mounted in the housing on supports perpendicular to the axis of symmetry of its bore with an offset relative to the specified axis, wherein the saddle , made removable in the form of a metal ring and equipped with a means of fixing it from axial movement and elastic elements (patent US8727313, IPC F16K1 / 22, USPC 251-308, publ. March 27, 2014)

This technical solution has an inherent set of features that is closest to the set of essential features of the invention, it has an appointment that matches the purpose of the invention and is closest in terms of the result achieved, therefore it is taken as a prototype.

The disadvantage of this disk shutter is the lack of reliability of the closure due to loss of tightness in the place where the disk seal adheres to the housing seat when the medium flows to the disk from the seal side.

The technical result from the use of the invention is to increase the reliability of closure by ensuring the continuity of the contact of the saddle with the seal of the disk in the closed state of the shutter when the medium flows to the disk from the side of the seal.

The following discloses the general and particular essential features of the invention, characterizing their causal relationship with the specified technical result, sufficient for implementation by a person skilled in the art.

A butterfly valve with triple eccentricity comprises a housing in which a seat with a sealing surface is located, and a butterfly valve, mounted on a drive shaft mounted in the housing on supports perpendicular to the axis of symmetry of its bore with an offset relative to the specified axis. The saddle is made removable in the form of a metal ring and is equipped with a means of fixing it from axial displacement and elastic elements. The indicated means of fixing the saddle are made in the form of external and internal stops on both sides, welded to the valve body. The external stop on the side of the open end of the shutter is made in the form of a ring. The saddle is mounted with limited axial movement within the gap δ = S-T, where: S is the distance between the internal and external stops along the axis of the shutter; T is the thickness of the seat, on the contact surface with the valve body of which at least two radial elastic rings and one end elastic ring are installed, which is installed in the interface between the seat and the external stop in the form of a ring. All elastic rings are made of polymer materials with the possibility of maintaining contact between the disk seal and the seat when fully compressed to the limit state of the end elastic ring with a maximum gap δ defined by a given section profile of the end elastic ring of the saddle.

The specified internal emphasis may be made in the form of a ring or may be made of uniformly distributed annular segments. In this case, the segment adjacent to the axis of the drive shaft is located within the sector boundary formed by an acute angle α from the vertical axis of the hole in the cross section of the housing. The specified metal ring - the saddle can be made of stainless steel or alloy steel. The cross-sectional profile of elastic rings can be an array with a curved outer surface or within the boundaries of a polygon. Fluoroelastomer or silicone may be used as an elastomer for elastic rings. The cross-sectional profile of the elastic rings may contain a sealed annular cavity.

The invention is illustrated by drawings, where: in Fig.1 shows a longitudinal section of a shutter; figure 2 - section aa in figure 1; figure 3 is a view of I in figure 1; figure 4 is a view II of figure 2; figure 5 - body, longitudinal section; Fig.6 is a section bB in Fig.5.

A butterfly valve with triple eccentricity comprises a housing 1, in which a seat 2 with a sealing surface is placed, and a butterfly valve 3 in the form of a disk, mounted on a drive shaft 4 mounted in the housing 1 on supports 5 perpendicular to the axis of symmetry of its bore with an offset relative to the specified axis .

The saddle 2 is removable in the form of a metal ring and is equipped with a means of fixing it from axial movement and elastic elements.

These means of fixing the seat 2 are made in the form of an outer 6 and an inner 7 stops on both sides, welded to the valve body 1.

The outer stop 6 from the side of the open end of the shutter is made in the form of a ring.

 Saddle 2 is installed with limited axial movement within the gap δ = S-T, where: S is the distance between the internal and external stops along the axis of the shutter; T is the thickness of the saddle (Fig. 3), on the contact surface of the shutter body 1 of which at least two radial elastic rings 8 and one end elastic ring 9 are installed, which is installed in the interface between the saddle 2 and the external stop 6 in the form of a ring .

All elastic rings 8 and 9 are made of polymeric materials with the possibility of maintaining contact between the seal of the disk 9 and the seat 2 when fully compressed to the limit state of the end elastic ring 9 with a maximum gap δ defined by the given section profile of the end elastic ring 9 of the seat 2.

The seal of the disk 10 is bolted 11 to the disk 3 by means of a pressure ring 12.

The specified internal emphasis 7 may be made in the form of a ring (not shown) or may be made of evenly distributed annular segments 13 (Fig.6).

At the same time, the segment13 adjacent to the axis of the drive shaft 4 is located within the sector boundary formed by an acute angle α from the vertical axis of the hole in the cross section of the housing 1.

The specified metal ring - seat 2 can be made of stainless steel or alloy steel.

The cross-sectional profile of the elastic rings 8 and 9 may be an array with a curved outer surface or within the boundaries of the polygon.

As an elastomer for elastic rings 8 and 9, fluororubber or silicone can be used.

The cross-sectional profile of the elastic rings 8 and 9 may contain a sealed annular cavity.

Comparison of the claimed technical solution with the prior art known from the scientific, technical and patent documentation as of the priority date in the main and related sections did not reveal a tool that has features identical to all the features contained in the claims proposed by the applicant, including the purpose of the application. That is, the set of essential features of the claimed solution was not previously known and is not identical to any known technical solutions, therefore, it meets the condition of patentability “novelty”.

This technical solution is industrially applicable, since its purpose is indicated in the description of the application and the name of the utility model, it can be manufactured industrially and used for use in butterfly valves.

The technical solution is workable, feasible and reproducible, and the distinguishing features of the device allow to obtain the desired technical result, i.e. are significant.

The invention, as described in each of the claims, can be carried out using the means and methods described in the prototype patent US8727313, which became public until the priority date of the invention.

Therefore, the claimed technical solution meets the condition of patentability "industrial applicability".

An analysis of the known technical solutions in the art showed that the proposed technical solution does not follow explicitly from the prior art for the specialist, since solutions having features matching his distinctive features are not identified, and the known effects of the distinctive features on the identified solutions are not confirmed the technical result indicated in the application materials.

Those. the claimed solution has features that are not found in the known technical solutions, and the use of these features in the claimed combination of essential features makes it possible to obtain a new technical result - improving the reliability of closure by ensuring the continuity of the contact of the seat with the valve in the closed state of the shutter when the medium flows to the disk from the side seals.

Therefore, the proposed technical solution can only be obtained through a creative approach and is not obvious to the average person skilled in this field, i.e. has an inventive step in comparison with the existing level of technology.

The implementation of the claimed invention is achieved by the implementation of this purpose.

To confirm the feasibility of carrying out the invention, the following information about the operation of the device is disclosed, disclosing how the invention can be implemented with the realization of the destination indicated by the applicant and with confirmation of the possibility of achieving a technical result in carrying out the invention.

Rotary butterfly valve with a triple eccentricity works as follows.

In known designs, the shutter is most often made with a fixed seat 2, due to which it has one-sided tightness.

The saddle of such a shutter is made at the same time with the housing 1 from cast or forged billet, which excludes the possibility of its quick replacement or repair.

The manufacture of a shutter with a fixed seat is less labor intensive and metal-intensive, and in the case of a constantly directed flow of the medium, it is economically feasible.

The shutter on the pipeline is placed combining the arrow on the housing 1 with the direction of flow of the medium.

It looks like this: the medium flow presses on the disk 3 from the shaft side and additionally, by the working pressure of the medium, seals the adjacent surfaces.

Nevertheless, it changes with the possibility of changing the direction of flow.

If you direct the flow to the disk 3 from the side of the seal 10, the medium pressure will tend to squeeze the seal 10 of the disk 3 from the seat 2.

The disk 3 together with the seal 10 will be displaced by the size of the clearances and backlash in the bearings of the shaft 4, thereby reducing the tightness in the place where the seal of the disk 3 fits to the seat 2 of the housing 1.

These gaps are not large, but at high pressures they will be enough to lose the shutter tightness.

To prevent this, the shutter seat 2 is movable or the clamping force of the disk 3 to the seat 2 is increased, increasing the torque of the drive unit and strengthening the power structures.

With an increase in the closing moment of the shutter, its technical resource decreases.

In the case of the use of a movable saddle 2 (Fig. 1), when the flow direction is changed, the disk 3 will move together with the saddle 2 of the housing 1 by the size of the gaps, as a result of which the tightness is not lost.

It should be explained that to ensure tightness between the seat 2 and the valve body 1, two radial elastic rings 8 can be installed.

The movable seat 2 is entirely made of corrosion resistant materials.

The mobility of the saddle 2 is implemented using elastic rings 8 and 9 of a heat-resistant material - fluororubber.

The seat 2 is installed in the housing 1 until it contacts the annular stop 6, and on the reverse side, the seat 2 is pressed by the welded stops 13.

The use of the invention improves the reliability of the closure by ensuring the continuity of the contact of the seat with the seal of the disk in the closed state of the shutter when the direction of the medium flow to the disk from the seal side.

In addition, the advantage of this invention in comparison with the known technical solutions is to increase the technical resource of the shutter.

Claims (10)

1. A rotary butterfly valve with triple eccentricity, comprising a housing in which a seat with a sealing surface is located, and a butterfly valve mounted on a drive shaft mounted in the housing perpendicular to the axis of symmetry of its bore with an offset relative to the specified axis, wherein the saddle is made removable in the form of a metal ring and equipped with a means of fixing it from axial movement and elastic elements, characterized in that the said means of fixing the saddle are made in the form of external and internal the lower stops on both sides welded to the valve body, while the external stop on the side of the open end of the valve is made in the form of a ring, and the seat is installed with the possibility of limited axial movement within the gap δ = ST, where S is the distance between the internal and external stops along the axis of the shutter; T is the thickness of the seat, on the contact surface with the valve body of which at least two radial elastic rings and one end elastic ring are installed, which is installed in the interface between the seat and the external stop, while all the elastic rings are made of polymer materials with the possibility of maintaining contact between the disk seal and the seat when fully compressed to the limit state of the end ring with a maximum gap δ defined by a given section profile of the end elastic ring of the seat. 2. The butterfly valve according to claim 1, characterized in that said internal stop is made in the form of a ring. 3. The butterfly valve according to claim 1, characterized in that said internal stop consists of uniformly distributed annular segments, while the segment adjacent to the axis of the drive shaft is located within the sector boundary formed by an acute angle α from the vertical axis of the hole in the cross section of the housing . 4. The butterfly valve according to claim 1, characterized in that said metal ring-seat is made of stainless steel. 5. The butterfly valve according to claim 1, characterized in that said metal ring - seat is made of alloy steels. 6. The butterfly valve according to claim 1, characterized in that the sectional profile of the elastic rings is an array with a curved outer surface. 7. The butterfly valve according to claim 1, characterized in that the sectional profile of the elastic rings is an array within the boundaries of the polygon. 8. A butterfly valve according to claim 2, characterized in that fluororubber is used as an elastomer for elastic rings. 9. The butterfly valve according to claim 2, characterized in that silicone is used as an elastomer for the elastic rings. 10. The butterfly valve according to claim 2, characterized in that the sectional profile of the elastic rings contains a sealed annular cavity.

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