CN210920096U - Sealing gasket - Google Patents

Abstract

The utility model discloses a seal gasket, first ring and second ring including coaxial range upon range of setting, and welded fastening just can release the ring along radial elastic deformation's stress between the inboard week portion of first ring and second ring, this seal gasket is when being used for sealing device, when the flange of seal gasket both sides produces radial displacement difference because of the operating temperature field is different, deformation through stress release ring makes and remains sealed between first ring and the second ring all the time, thereby make first seal ring and second seal ring and contact separately remain synchronous motion between the sealed face all the time, the contact is static relatively, do not wear and tear, thereby can not produce sealed face looks mutual friction and damage the sealing ring, and then make sealed keep effective.

Description

Sealing gasket

Technical Field

The utility model relates to a sealed field especially relates to a seal gasket.

Background

In fields such as nuclear power, petrochemical industry, food, traditional flange seal mainly adopts bipyramid ring pad, octagon (ellipse) pad, metal ring pad or metal winding gasket etc. because sealing connection flange both sides temperature is different, the asynchronous deformation takes place for the flange of sealing member both sides under the temperature of difference, and the flange seal face produces relative displacement difference in radial direction, exists and causes the sealing member damage or sealed stress decline and lead to the risk of sealed inefficacy.

Disclosure of Invention

The utility model aims at providing a seal gasket to it is poor to be arranged in the relative displacement that the compensation flange seal face produced in radial direction among the sealing device, ensures sealed reliability.

In order to achieve the above purpose, the utility model adopts the technical scheme that: a sealing gasket comprises a first ring and a second ring which are coaxially stacked, wherein a first sealing ring is arranged at the outer side shaft end part of the first ring, a second sealing ring is arranged at the outer side shaft end part of the second ring, the sealing gasket further comprises a stress release ring which can elastically deform along the radial direction, the shaft end parts at two sides of the stress release ring are respectively welded and fixed on the first ring and the second ring along the circumferential direction, and a gap is formed between the outer circumferential surface of the stress release ring and the inner circumferential wall of the first ring.

Preferably, the stress release ring has a longitudinal section in the form of a curved sheet.

Further, the longitudinal section of the stress relief ring is in a C shape that is arched radially outward, or in a C shape that is arched radially inward, or in a W shape that is open to the radially inner side or the radially outer side, or in a corrugated shape.

Preferably, a first arc-shaped groove is formed in the inner peripheral portion of the first ring, a second arc-shaped groove is formed in the inner peripheral portion of the second ring, the first arc-shaped groove and the second arc-shaped groove are matched with each other to form an accommodating space, the stress release ring is entirely or partially accommodated in the accommodating space, and a gap is formed between the outer peripheral surface of the stress release ring and the circumferential groove wall of the first arc-shaped groove.

Furthermore, the longitudinal section of the stress release ring is in a C shape which is arched outwards along the radial direction, and the outer circumferential surface of the stress release ring is contacted with the circumferential groove wall of the second arc-shaped groove.

Preferably, one of the inner shaft end of the first ring and the inner shaft end of the second ring is provided with an annular boss, the other one of the inner shaft end of the first ring and the inner shaft end of the second ring is provided with an annular groove, the radial thickness of the annular boss is smaller than the radial width of the annular groove, and the annular boss is correspondingly inserted into the annular groove.

Further, the annular boss is arranged on the first ring, the annular groove is arranged on the second ring, and a gap is formed between the inner peripheral surface of the annular boss and the inner peripheral wall of the annular groove;

or, the annular groove is arranged on the first ring, the annular boss is arranged on the second ring, and a gap is formed between the outer peripheral surface of the annular boss and the outer peripheral wall of the annular groove.

Furthermore, an inner sealing ring is further arranged on the annular boss, and the inner sealing ring is in sealing connection with the bottom surface of the annular groove.

Preferably, the seal gasket further includes a leak detection ring, shaft ends on two sides of the leak detection ring are respectively welded and fixed on the outer peripheral portion of the first ring and the outer peripheral portion of the second ring along the circumferential direction, a closed leak detection chamber is formed among the first ring, the second ring, the stress release ring and the leak detection ring, and the leak detection ring is further connected with a leak detection pipe communicated with the leak detection chamber.

Furthermore, the longitudinal section of the leak detection ring is convex or concave along the radial direction.

Furthermore, a first outer sealing ring is further arranged at the end part of the outer side shaft of the first ring, the first outer sealing ring is located on the radial outer side of the first sealing ring, a first leakage detecting hole penetrating along the axial direction is formed in the first ring, and the first leakage detecting hole is located between the first sealing ring and the first outer sealing ring in the radial direction; the outer shaft end part of the second ring is provided with a second outer sealing ring, the second outer sealing ring is located on the radial outer side of the second sealing ring, a second leakage detecting hole penetrating along the axial direction is formed in the second ring, and the second leakage detecting hole is located between the second sealing ring and the second outer sealing ring in the radial direction.

Because of above-mentioned technical scheme's application, compared with the prior art, the utility model have the following advantage: the utility model discloses a seal gasket is when being arranged in the sealing device, when the flange of seal gasket both sides produced radial displacement when poor because of the operating temperature field is different, can make through the deformation of stress release ring and remain throughout sealed between first ring and the second ring to make first sealing ring and second sealing ring and contact separately keep synchronous motion, contact relatively static all the time between the sealed face, do not wear and tear, thereby can not produce sealed face looks mutual friction and harm the sealing ring, and then make sealed keep effective.

Drawings

FIG. 1 is a schematic longitudinal sectional view of a gasket according to embodiment 1 of the present invention;

FIG. 2 is a schematic longitudinal cross-sectional view of a seal assembly employing the gasket of FIG. 1, wherein the gasket is not yet compressed;

FIG. 3 is a schematic longitudinal sectional view of the sealing device of FIG. 2 after the gasket is compressed and radially displaced;

FIG. 4 is a schematic longitudinal sectional view of a gasket according to embodiment 2 of the present invention;

FIG. 5 is a schematic longitudinal cross-sectional view of a seal assembly employing the gasket of FIG. 4, after compression and without radial displacement;

FIG. 6 is a schematic longitudinal sectional view of a gasket according to embodiment 3 of the present invention;

FIG. 7 is a schematic longitudinal sectional view of a gasket according to embodiment 4 of the present invention;

FIG. 8 is a schematic longitudinal cross-sectional view of a seal assembly employing the gasket of FIG. 7 after compression and without radial displacement;

FIG. 9 is a schematic longitudinal sectional view of a gasket according to embodiment 5 of the present invention;

FIG. 10 is a schematic longitudinal cross-sectional view of a seal assembly employing the gasket of FIG. 9, after compression and without radial displacement of the gasket;

FIG. 11 is a longitudinal cross-sectional view of a gasket according to embodiment 6 of the present invention;

FIG. 12 is a schematic longitudinal sectional view of a gasket of example 7 of the present invention;

FIG. 13 is a longitudinal sectional view of a gasket according to embodiment 8 of the present invention;

FIG. 14 is a longitudinal sectional view of a gasket of example 9 of the present invention;

wherein: 100. a first flange; 101. a first flange face; 102. a first mounting groove;

200. a second flange; 201. a second flange face; 202. a second mounting groove;

300. sealing gaskets; 1. a first ring; 11. an annular boss; 12. an annular groove; 13. a first leak detection hole; 14. a first arc-shaped slot; 2. a second ring; 21. an annular groove; 22. a second leak detection hole; 23. a second arc-shaped slot; 3. a first seal ring; 4. a second seal ring; 5. a stress relief ring; 6. 6', a leakage detecting ring; 7. a drain pipe; 8. an inner seal ring; 9. a first outer sealing ring; 10. a second outer seal ring.

Detailed Description

The technical solution of the present invention will be further explained with reference to the accompanying drawings and specific embodiments.

Example 1

Referring to the sealing gasket shown in fig. 1, the sealing gasket includes a first ring 1 and a second ring 2 coaxially stacked, a first sealing ring 3 is disposed at an outer axial end of the first ring 1, a second sealing ring 4 is disposed at an outer axial end of the second ring 2, and the first sealing ring 3 and the second sealing ring 4 may be made of a metal material or a non-metal material, and specifically may be a metal ring, a packing ring, an O-ring, or the like. The sealing gasket is connected with the flange surfaces of the two flanges in a sealing mode through the first sealing ring 3 and the second sealing ring 4. Here, the shaft end portion where the first ring 1 and the second ring 2 are fitted and connected to the flange is referred to as an outer shaft end portion, and the shaft end portion where the first ring 1 and the second ring 2 contact each other is referred to as an inner shaft end portion.

The gasket further comprises a stress release ring 5 capable of elastic deformation in the radial direction, the stress release ring 5 having a longitudinal section in the form of a curved sheet. In this embodiment, the longitudinal section of the stress release ring 5 is a C-shape that is arched outward in the radial direction, and the outer circumferential surface thereof is an arc surface. The stress release ring 5 is coaxially disposed with the first ring 1 and the second ring 2, and has the same inner diameter. The inner circumference of the first ring 1 is provided with a first arc-shaped groove 14, the inner circumference of the second ring 2 is provided with a second arc-shaped groove (not marked in the figure), the first arc-shaped groove 14 and the second arc-shaped groove are both semi-circular arc-shaped grooves, the two grooves are matched with each other to form an accommodating space for accommodating the stress release ring 5, and the stress release ring 5 is completely accommodated in the accommodating space. Both side shaft ends of the stress release ring 5 are welded and fixed to the first ring 1 and the second ring 2 in the circumferential direction, respectively, so that a gap between the first ring 1 and the second ring 2 is closed by the stress release ring 5 at the inner circumferential portion.

The outer peripheral surface of the stress relief ring 5 is disposed with a gap from the circumferential groove wall of the first arc-shaped groove 14, as shown at a in fig. 1. Preferably, the gap is gradually increased from the outside to the inside in the axial direction of the first ring 1. The outer circumferential surface of the stress release ring 5 and the circumferential groove wall of the second arc-shaped groove are arranged in a mutually attached and contacted manner. Thus, when the second ring 2 is displaced radially outward relative to the first ring 1, the stress release ring 5 deforms, one axial end of the stress release ring 5 abuts against the second arc-shaped groove and can bear higher pressure, the other axial end deforms, and the gap provides a space for the stress release ring 5 to deform and release.

Referring to fig. 1, in the present embodiment, an annular boss 11 is disposed on an inner axial end of the first ring 1, an annular groove 21 is disposed on an inner axial end of the second ring 2, a radial thickness of the annular boss 11 is smaller than a radial width of the annular groove 21, and the annular boss 11 is correspondingly inserted into the annular groove 21, as shown at B in fig. 1, to form a gap between the annular boss 11 and the annular groove 21, so that the annular boss 11 can move in the annular groove 21 when the second ring 2 is displaced outward in the radial direction relative to the first ring 1, that is, a radial deformation compensation space is reserved when the second ring 2 is displaced in the radial direction relative to the first ring 1. When the sealing gasket is arranged, in an unused state, only a gap needs to be ensured between the inner peripheral surface of the annular boss 11 and the inner peripheral wall of the annular groove 21, the gap is not smaller than the radial displacement difference between the second ring 2 and the first ring 1, and the gap value is determined according to multiple factors such as the material adopted by the sealing gasket, the working condition environment of use and the like when the sealing gasket is specifically arranged. In some other embodiments, the annular groove may be formed on the first ring 1, and the annular protrusion may be formed on the second ring 2, wherein a gap is formed between an outer circumferential surface of the annular protrusion and an outer circumferential surface of the annular groove.

In this embodiment, the height of the annular boss 11 is greater than the depth of the annular groove 21, so that a gap is formed between the inner axial end surface of the first ring 1 and the inner axial end surface of the second ring 2.

Referring to fig. 2 and 3, the sealing device includes a first flange 100 having a first flange surface 101, a second flange 200 having a second flange surface 201, and a sealing gasket 300 for sealing connection between the first flange surface 101 and the second flange surface 201, wherein the first flange 100 is provided with a first mounting groove 102, and the second flange 200 is provided with a second mounting groove 202.

The first flange 100, the second flange 200 and the sealing gasket 300 are coaxially arranged, and the working temperature field of the second flange 200 is higher than that of the first flange 100. The first flange 100 and the second flange 200 are axially pressed and connected through bolts, and the sealing gasket 300 is pressed between the first flange 100 and the second flange 200, wherein the outer axial end of the first ring 1 is fittingly embedded in the first mounting groove 102, the outer axial end of the second ring 2 is fittingly embedded in the second mounting groove 202, the first sealing ring 3 forms a seal with the bottom wall of the first mounting groove 102, and the second sealing ring 4 forms a seal with the bottom wall of the second mounting groove 202.

After the sealing gasket 300 is compressed, the first ring 1 and the second ring 2 are respectively positioned and restrained in the first mounting groove 102 and the second mounting groove 202, the axial outer end faces of the first ring 1 and the second ring 2 are respectively in bearing contact with the flange faces of the two flanges, and the compression amount of the first sealing ring 3 and the second sealing ring 4 is limited, so that the sealing stress of each sealing ring is constant.

In the working state of the sealing device, when the flanges at two sides of the sealing gasket 300 have radial displacement difference due to temperature difference, the first mounting groove 102 and the second mounting groove 202 move asynchronously along the radial direction, the displacement difference between the two grooves is shown as a in fig. 3, and at the moment, the first ring 1 and the second ring 2 can be always kept sealed through the deformation of the stress release ring 5. The first ring 1 located on the low-temperature side is constrained in the first mounting groove 102 and moves radially along with the first flange 100, and the second ring 2 located on the high-temperature side is constrained in the second mounting groove 202 and moves radially along with the second flange 200, so that the first sealing ring 3 and the second sealing ring 4 are always kept in synchronous movement, contact is relatively static and is not worn, the sealing surfaces cannot rub against each other to damage the sealing rings, and sealing is kept effective. The sealing gasket of this embodiment is particularly useful for under the highly compressed operating mode environment.

Example 2

Referring to the gasket shown in fig. 4, the difference from the gasket of example 1 is mainly that in this embodiment, the gasket further includes a leak detection ring 6, where the longitudinal section of the leak detection ring 6 is in the shape of an outwardly convex C. The shaft ends at two sides of the leakage detecting ring 6 are respectively welded and fixed on the periphery of the outer side of the first ring 1 and the periphery of the outer side of the second ring 2 along the circumferential direction, a closed leakage detecting cavity is formed among the first ring 1, the second ring 2, the stress releasing ring 5 and the leakage detecting ring 6, and the leakage detecting ring 6 is also fixedly connected with a leakage detecting pipe 7 communicated with the leakage detecting cavity. Therefore, the leakage inspection can be carried out on the welding seam of the stress release ring 5, and the timely alarm can be realized when the welding seam fails. A sealing device using the gasket is shown in fig. 5.

Example 3

Referring to the gasket of fig. 6, the difference from the gasket of example 2 is mainly that in this example, the longitudinal section of the leak detection ring 6' in the gasket is concave C-shaped.

Example 4

Referring to the sealing gasket shown in fig. 7, the difference from the sealing gasket of embodiment 2 is mainly that in this embodiment, an annular groove 12 is further formed on the annular boss 11, an inner sealing ring 8 is disposed in the annular groove 12, and the inner sealing ring 8 is in sealing connection with the groove bottom surface of the annular groove 21. In this way, a second sealing barrier between the first ring 1 and the second ring 2 may be provided in case of failure of the weld at the stress relief ring 5. The sealing device using the gasket is shown in fig. 8.

Example 5

Referring to the seal gasket shown in fig. 9, compared with the seal gasket of embodiment 4, the difference is mainly that in this embodiment, a first outer sealing ring 9 is further disposed on an outer shaft end portion of the first ring 1, the first outer sealing ring 9 is located on a radial outer side of the first sealing ring 3, a first leakage detecting hole 13 penetrating along an axial direction is further formed in the first ring 1, and the first leakage detecting hole 13 is located between the first sealing ring 3 and the first outer sealing ring 9 in the radial direction; the outer shaft end part of the second ring 2 is further provided with a second outer sealing ring 10, the second outer sealing ring 10 is located on the radial outer side of the second sealing ring 4, the second ring 2 is further provided with a second leakage detecting hole 22 penetrating along the axial direction, and the second leakage detecting hole 22 is located between the second sealing ring 4 and the second outer sealing ring 10 in the radial direction. This enables leak detection and monitoring of the overall seal condition. A sealing device using the gasket is shown in fig. 10.

Example 6

Referring to the gasket shown in fig. 11, the main difference between the gasket of this embodiment and embodiment 2 is that in this embodiment, the longitudinal section of the stress relief ring 5 is in a C shape that is inwardly arched in the radial direction, the axial ends at both sides thereof are respectively welded and fixed to the inner peripheral surface of the first ring 1 and the inner peripheral surface of the second ring 2, and the main body portion is completely located inside the first ring 1 and the second ring 2. Different from the embodiments 1 to 5, the sealing gasket of the embodiment is suitable for the working condition environment of medium and low pressure.

Example 7

Referring to the sealing gasket shown in fig. 12, the main difference between the sealing gasket of this embodiment and embodiment 2 is that, in this embodiment, the longitudinal section of the stress relief ring 5 is corrugated, and the axial end portions of both sides thereof are welded and fixed to the inner peripheral surface of the first ring 1 and the inner peripheral surface of the second ring 2, respectively, and the stress relief ring 5 has a curved portion that is arched outward in the radial direction in the middle thereof, and the curved portion is accommodated in the accommodation space formed by the first arc-shaped groove 14 and the second arc-shaped groove 23. The sealing gasket of this embodiment is applicable to under the operating mode environment of low pressure.

Example 8

Referring to the seal gasket shown in fig. 13, the seal gasket of the present embodiment is mainly different from the seal gasket of embodiment 2 in that, in the present embodiment, the longitudinal section of the stress relief ring 5 is W-shaped with the opening facing the radial inner side, and the stress relief ring 5 is entirely accommodated in the accommodating space formed by the first arc-shaped groove 14 and the second arc-shaped groove 23. The sealing gasket of this embodiment mainly is applicable to under the operating mode environment of well low pressure.

Example 9

Referring to the gasket shown in fig. 14, the gasket of this embodiment is mainly different from the gasket of embodiment 8 in that, in this embodiment, the longitudinal section of the stress relief ring 5 is W-shaped with an opening facing the radial outside, the axial end portions at both sides thereof are welded and fixed to the inner peripheral surface of the first ring 1 and the inner peripheral surface of the second ring 2, respectively, and the main body portion is completely located inside the first ring 1 and the second ring 2. The sealing gasket of this embodiment is also applicable to under the operating mode environment of well low pressure.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose of the embodiments is to enable people skilled in the art to understand the contents of the present invention and to implement the present invention, which cannot limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered by the protection scope of the present invention.

Claims (10)

1. A sealing gasket, characterized by: the sealing gasket comprises a first ring and a second ring which are coaxially stacked, a first sealing ring is arranged at the outer side shaft end part of the first ring, a second sealing ring is arranged at the outer side shaft end part of the second ring, the sealing gasket further comprises a stress release ring which can elastically deform along the radial direction, the shaft end parts at two sides of the stress release ring are respectively welded and fixed on the first ring and the second ring along the circumferential direction, and a gap is formed between the outer circumferential surface of the stress release ring and the inner circumferential wall of the first ring.

2. A gasket seal according to claim 1, wherein: the longitudinal section of the stress release ring is in a bent sheet shape.

3. A gasket seal according to claim 2, wherein: the longitudinal section of the stress release ring is in a C shape which is arched outwards along the radial direction, or in a C shape which is arched inwards along the radial direction, or in a W shape which is opened towards the radial inner side or the radial outer side, or in a corrugated shape.

4. A gasket seal according to claim 1, wherein: the stress release ring comprises a first ring, a second ring and a stress release ring, wherein a first arc-shaped groove is formed in the periphery of the inner side of the first ring, a second arc-shaped groove is formed in the periphery of the inner side of the second ring, the first arc-shaped groove and the second arc-shaped groove are matched with each other to form an accommodating space, the stress release ring is completely or partially accommodated in the accommodating space, and a gap is formed between the peripheral surface of the outer side of the stress release ring and the peripheral groove wall of the first arc-shaped groove.

5. A gasket seal according to claim 4, wherein: the longitudinal section of the stress release ring is in a C shape which is arched outwards along the radial direction, and the peripheral surface of the outer side of the stress release ring is mutually attached to the circumferential groove wall of the second arc-shaped groove.

6. A gasket seal according to claim 1, wherein: one of the inner shaft end of the first ring and the inner shaft end of the second ring is provided with an annular boss, the other one of the inner shaft end of the first ring and the inner shaft end of the second ring is provided with an annular groove, the radial thickness of the annular boss is smaller than the radial width of the annular groove, and the annular boss is correspondingly inserted into the annular groove.

7. The gasket seal of claim 6, wherein: the annular boss is arranged on the first ring, the annular groove is arranged on the second ring, and a gap is formed between the inner peripheral surface of the annular boss and the inner peripheral wall of the annular groove;

or, the annular groove is arranged on the first ring, the annular boss is arranged on the second ring, and a gap is formed between the outer peripheral surface of the annular boss and the outer peripheral wall of the annular groove.

8. The gasket seal of claim 6, wherein: the annular boss is further provided with an inner sealing ring, and the inner sealing ring is connected with the bottom surface of the annular groove in a sealing mode.

9. The sealing gasket according to any of claims 1 to 8, wherein: the sealing gasket further comprises a leakage detecting ring, shaft end parts on two sides of the leakage detecting ring are respectively welded and fixed on the periphery of the outer side of the first ring and the periphery of the outer side of the second ring along the circumferential direction, a closed leakage detecting cavity is formed among the first ring, the second ring, the stress releasing ring and the leakage detecting ring, and the leakage detecting ring is further connected with a leakage detecting pipe communicated with the leakage detecting cavity.

10. A gasket seal according to claim 9, wherein: a first outer sealing ring is further arranged at the end part of the outer side shaft of the first ring, the first outer sealing ring is located on the radial outer side of the first sealing ring, a first leakage detecting hole penetrating along the axial direction is formed in the first ring, and the first leakage detecting hole is located between the first sealing ring and the first outer sealing ring in the radial direction;

the outer shaft end part of the second ring is provided with a second outer sealing ring, the second outer sealing ring is located on the radial outer side of the second sealing ring, a second leakage detecting hole penetrating along the axial direction is formed in the second ring, and the second leakage detecting hole is located between the second sealing ring and the second outer sealing ring in the radial direction.

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