RU183622U1 - DISC SHUTTER WITH TRIPLE ECCENTRICITY - Google Patents

Abstract

The utility model relates to general engineering, in particular to valves with rotary disks with an axis of rotation intersecting the locking element, and is intended to overlap and adjust the working environment of pipelines transporting liquid and gaseous media, in particular, on marine vessels. The technical result provided by the utility model is the preservation of a given degree of tightness during operation of a disk shutter with a triple eccentricity on sea vessels for the working medium — sea water, and as a result, an increase in its operational life. The solution to the above technical problem is provided in the design of a disk shutter with a triple eccentricity, consisting of a disk shutter body having a seat with a sealing surface, a shaft installed in the above case perpendicular to the symmetry axis of its bore with an offset relative to the specified axis mounted on the disk shaft, which is fixed on the shaft from turning by a key installed on the lamella disk, the outer face of which has a conical surface, the axis of which is inclined, relate the axis of symmetry of the bore of the casing, the pressure ring pressing the lamella to the disk with screws, gland, stuffing box cover, bottom cover, drive, while the lamella consists of alternating rings of copper-nickel resistant to chemical corrosion in sea water glued to each other MNZH5-1 alloy TU 48-21-176-82 and graphite rings, and the housing, shaft, disk, dowels, pressure ring, lamella pressing screws, bottom cover are made of the same material grade - copper-containing alloys resistant to chemical corrosion in fruit drink water, for example, BrAZhNMts 9-4-4-1 GOST 18175-78. In addition, the use of the same grade of material for the above parts additionally avoids the potential difference between these parts located in the working medium - sea water, and protects them from electrochemical corrosion. 4 ill.

Description

The utility model relates to general engineering, in particular to valves with rotary disks with an axis of rotation intersecting the locking element, and is intended to overlap and adjust the working environment of pipelines transporting liquid and gaseous media, in particular, on marine vessels.

The closest analogue is a butterfly valve with a triple eccentricity, consisting of a butterfly valve housing having a weld-in stainless steel seat with a sealing surface, a shaft mounted in the housing perpendicular to the axis of symmetry of its bore with an offset relative to the specified axis mounted on the disk shaft, which fixed on the shaft from turning by dowels installed on the lamella disk, consisting of alternately alternating stainless steel rings glued together and graphite rings, while the outer edge of the lamella has a tapered surface, the axis of which is inclined relative to the axis of symmetry of the bore of the housing, the pressure ring pressing the lamella to the disk with screws, stuffing box, stuffing box cover, bottom cover and drive (Product catalog of Penztyazhpromarmatura JSC , http://ptpa.ru/catalog/pdf/).

However, a butterfly valve with a triple eccentricity of this design has a technical problem. The use of a deposited seat made of stainless wear-resistant steel and a lamella, consisting of alternately alternating rings of stainless steel and graphite rings glued together, makes it impossible to use the above-mentioned disk shutter with triple eccentricity on marine vessels for the working medium - sea water, as these metal materials, of which parts in contact with the working medium are made, are not resistant to sea water, as a result of which corrosion occurs. The corrosion process in the early stages of operation leads to a loss of tightness of the disk shutter (due to corrosion of the sealing surface of the housing seat) and the sealing surface of the lamella (due to corrosion of stainless steel rings). During further operation, the corrosion process leads to a loss of operability of the disk shutter as a whole (due to the corrosion of keys transmitting torque from the drive to the disk). It is also possible loss of tightness of the disk shutter relative to the external environment due to corrosion of its housing.

The solution to the above technical problem is provided in the design of a disk shutter with a triple eccentricity, consisting of a disk shutter body having a seat with a sealing surface, a shaft installed in the above case perpendicular to the symmetry axis of its bore with an offset relative to the specified axis mounted on the disk shaft, which is fixed on the shaft from turning by a key installed on the lamella disk, the outer face of which has a conical surface, the axis of which is inclined, relate the axis of symmetry of the bore of the casing, the pressure ring pressing the lamella to the disk with screws, gland, stuffing box cover, bottom cover, drive, while the lamella consists of alternating rings of copper-nickel resistant to chemical corrosion in sea water glued to each other MNZH5-1 alloy TU 48-21-176-82 and graphite rings, and the housing, shaft, disk, dowels, pressure ring, lamella pressing screws, bottom cover are made of the same material grade - copper-containing alloys resistant to chemical corrosion in fruit drink water, for example, BrAZhNMts 9-4-4-1 GOST 18175-78. In addition, the use of the same grade of material for the above parts additionally avoids the potential difference between these parts located in the working medium - sea water, and protects them from electrochemical corrosion.

Electrochemical corrosion is observed upon contact of two dissimilar metals. In the electrolyte, they form a galvanic pair. The more electronegative of these will be the anode. The anode in the process will gradually dissolve. At the same time, there is a slowdown or even complete cessation of electrochemical corrosion at the cathode (more electropositive) (http://www.okorrozii.com/elektrximichiskakorozia.html).

Thus, the technical result provided by the utility model is the preservation of a given degree of tightness during operation of a disk shutter with triple eccentricity on sea vessels for the working medium — sea water, and as a result, increase in its operational life.

The triple eccentric disk lock in FIG. 1, 2, 3, 4, where:

FIG. 1 is a longitudinal view of a disk shutter with triple eccentricity;

FIG. 2 is a left side view of a triple eccentricity disk shutter;

FIG. 3 - view A, enlarged view of the sealing zone;

FIG. 4 - section BB, a butterfly valve with triple eccentricity,

where 1 is the body, 2 is the saddle, 3 is the sealing surface, 4 is the shaft, 5 is the axis of symmetry of the housing bore, 6 is the shaft axis, 7 is the disk, 8 is the key, 9 is the lamella, 10 is the pressure ring, 11 is screw, 12 - gland, 13 - gland cover, 14 - bottom cover, 15 - drive, 16 - screw, 17 - pipe, 18 - gasket, 19 - bolt, 20 - bracket, 21 - pipe, 22 - shaft axis offset relative to axis of symmetry of the housing bore, 23 — offset of the seal plane relative to the axis of the shaft, 24 — axis of the conical surface of the outer edge of the lamella, 25 — angle of inclination.

The general design of the disk shutter with triple eccentricity consists of a housing 1 having a seat 2 with a sealing surface 3. A shaft 4 is mounted 4 perpendicular to the axis of symmetry of the bore 5 with an offset 22. A disk 7 is mounted on the shaft 4, which is fixed to the shaft 4 from the rotation key 8. A disk 9 is installed on the disk 7, consisting of alternately alternating metal and non-metal rings glued to each other. The outer edge of the lamella 9 has a conical surface. The seal line of the shutter lies in the seal plane, which is offset relative to the axis of the shaft 6 by 23. The axis of the conical surface of the outer edge of the lamella 24 is inclined relative to the axis of symmetry of its bore hole 5 of the housing 1 by an angle of 25. The pressure ring 10 presses the lamella 9 against the disk 7 using screws 11. To seal the working medium relative to the external environment, a stuffing box 12 is installed in the upper part of the disk shutter with triple eccentricity, which is pressed by the packing gland 13 with screws 16. To seal the working medium, Regarding the external environment, a lower cover 14 with a gasket 18 with bolts 19 is installed in the lower part of the disk shutter with triple eccentricity. To control the shaft 4 and move the disk 7 from the open position to the closed position and the drive 15 is mounted on the housing 1 through the bracket 20.

Use for the manufacture of the housing 1, shaft 4, disk 7, keys 8, clamping ring 10, screws 11 and clamping lamellae 9, the bottom cover 14 of copper-containing alloys, for example Brazhnmts 9-4-4-1 GOST 18175-78 and the use of rings from copper -Nickel alloy MNZH5-1 TU 48-21-176-82 for lamella 9 makes the design of a disk shutter with triple eccentricity resistant to such a working environment as sea water. Also, the use of a housing 1, a shaft 4, a disk 7, a dowel 8, a clamping ring 10, screws 11 of a clamping lamella 9, a lower cover 14 of the same grade of material to avoid potential differences between parts located in the working medium — seawater — is used for manufacturing. The lack of potential difference protects the parts from electrochemical corrosion.

The offset 22 of the axis of the shaft 6 relative to the axis of symmetry of the bore 5 of the housing 1, the offset 23 of the sealing plane relative to the axis of the shaft 6 and the angle of inclination 25 form a tri-eccentricity.

The design of the disk shutter with triple eccentricity works as follows.

When applying the working medium in the direction of the locking element into the pipe 21, with the shutter of the disk open, the working medium moves freely along the highway. To translate the disk shutter using the actuator 15, rotate the shaft 4. The shaft 4 transmits a torque through the key connection to the disk 7 assembled with the lamella 9 and the pressure ring 10 using screws 11. At the moment the lamella 9 touches the sealing surface 3 of the seat 2 housing 1 is the sealing of the shutter. Due to the torque created by the actuator 15 on the sealing surface 3 creates a specific pressure seal necessary for the tightness of the shutter. At the same time, since the axis of the shaft 4 has an offset 22 relative to the axis of symmetry of the bore 5 of the housing 1, the area on which the working medium presses and helps to close the disk 7 is larger than the area on which the working medium presses and helps open the disk 7. Accordingly, when the working medium to the shut-off element in the pipe 21, the working medium creates additional torque, which creates additional specific pressure of the seal necessary for the shutter tightness. To translate the shutter of the disk back to the open position using the actuator 15 rotate the shaft 4 in the opposite direction.

When applying the working medium in the direction under the shut-off element to the pipe 17, with the shutter of the disk open, the working medium moves freely along the highway. To translate the disk shutter using the actuator 15, rotate the shaft 4. The shaft 4 transmits a torque through the key connection to the disk 7 assembled with the lamella 9 and the pressure ring 10 using screws 11. At the moment the lamella 9 touches the sealing surface 3 of the seat 2 housing 1 is the sealing of the shutter. Due to the torque created by the actuator 15 on the sealing surface 3 creates a specific pressure seal necessary for the tightness of the shutter. At the same time, since the axis of the shaft 4 has an offset 22 relative to the axis of symmetry of the bore 5 of the housing 1, the area which the working medium presses on and helps to open the disk 7 is larger than the area on which the working medium presses and helps close the disk 7. Accordingly, when the working the medium under the locking element in the pipe 17, the working medium creates additional torque, which counteracts the torque created by the actuator 15.

Thus, the proposed design of a butterfly valve with a triple eccentricity, consisting of a butterfly valve housing having a seat with a sealing surface, a shaft mounted in the above housing perpendicular to the axis of symmetry of its bore with an offset relative to the specified axis mounted on the disk shaft, which is fixed on the shaft from turning with a key installed on the lamella disk, the outer face of which has a conical surface, the axis of which is inclined relative to the axis of symmetry of its passage the holes of the housing, the pressure ring pressing the lamella to the disk with screws, gland, gland cover, bottom cover, drive, while the housing, shaft, disk, dowels, pressure ring, screws holding the lamella, the bottom cover are made of copper-containing alloys resistant to marine water, all from the same material grade, for example, BrAZhNMts 9-4-4-1 GOST 18175-78, and the lamella consists of alternately alternating rings of copper-nickel alloy MNZh5-1 TU 48-21-176 glued together -82, resistant to marine fashion and graphite rings, avoiding Corrosion of parts in contact with the working medium - sea water.

Claims (1)

A butterfly valve with a triple eccentricity, consisting of a butterfly valve housing having a seat with a sealing surface, a shaft installed in the above housing perpendicular to the axis of symmetry of its bore with an offset relative to the specified axis mounted on the disk shaft, which is fixed to the shaft from rotation by a key installed onto the lamella disk, the outer face of which has a conical surface, the axis of which is inclined relative to the axis of symmetry of the bore of the housing, the pressure ring, pressing its lamella to the disk with screws, gland, gland cover, lower cover, drive, characterized in that the lamella consists of alternating rings glued to each other from chemical corrosion resistant in sea water copper-nickel alloy MNZH5-1 TU 48-21 -176-82 and graphite rings, and the case, shaft, disk, dowels, pressure ring, screws holding the lamella, the bottom cover are made of the same material grade - copper-containing alloys resistant to chemical corrosion in sea water, for example BrAZhNMts 9- 4-4-1 GOST 18175-78.

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