CN210978521U - Combined sealing ring - Google Patents

Abstract

The utility model belongs to the technical field of sealing rings, in particular to a combined sealing ring, which comprises a sealing ring and a coil support; the sealing ring part is arranged in a sealing groove formed in the sealing surface; the disc ring support is sleeved on an inner ring of the sealing ring, the sealing ring is separated from the sealing surface, the degree of freedom of sliding of the sealing ring on the sealing surface is partially limited, and the extrusion deformation range of the sealing ring is limited to 0.4-1 time of the radius of the sealing ring by the disc ring support. The utility model has the advantages of high rotational speed good reliability, high efficiency, high service life and high reliability.

Description

Combined sealing ring

Technical Field

The utility model belongs to the technical field of the sealing washer, concretely relates to combined seal circle.

Background

The sealing mode of the combined sealing ring is an important part of a transmission system, and is an important part of the high-efficiency operation of the transmission system in the mechanical field. It can both play and keep current other work component structures through nimble structure and the function of combining the collocation, satisfies current operating mode, can realize combining again and guarantee sealed effect, realizes 1+1>2 sealed effect.

At present, the connection form between the rotors of the main domestic aero-engines and gas turbines and the zero-level blisk is not high in matching and sealing effects. Although the variety is relatively various, the structure function is not ideal in nature. At present, the connection form between the rotors of the main domestic aero-engines and gas turbines and the zero-level blisk is not high in matching and sealing effects.

At present, in other domestic industries, a plurality of combined sealing modes are provided, but the connecting mode of the rotating part rod-shaped inside the connecting mode is provided, and the structure mode of the outer part of the connecting mode is provided with the cylinder disk part. Meanwhile, the working condition is special, and certain oil liquid and the like can exist inside the oil tank. The functionality requirements are also high, and both good rotational characteristics need to be met and corresponding sealing properties need to be provided. In this case, the axial groove seal like the conventional seal type, as shown in fig. 2, cannot be satisfied without modifying the structure of the components such as the inner rotor shaft. The combined sealing mode plays a role, the structure of the rotor rod piece of the combined sealing mode is not damaged, and a special sealing groove is not required to be specially formed in a matching piece. A sealed environment can be created in a self-contained manner and the performance of the structural components can be guaranteed.

At present, a plurality of combined sealing modes can play a role in stable sealing, and the special sealing performance requirements of the rotor and the zero-order blisk are not influenced. The current combined sealing mode can achieve stable sealing without influencing special performance requirements, and is shown in figure 2, figure 3 or figure 4. The sealing modes are combined sealing modes of matching the rotating rod piece and the coil support at present, and the limitation is large.

First, as shown in fig. 2:

1. the inner ring and the outer ring are in tight fit, so that the precision required by the machining size is too high.

2. Meanwhile, the upper part of the part pressing mode is irregular elliptical deformation, and the part pressing mode is easy to damage after long time. The fatigue performance is low.

3. The rotating performance is affected when the size processing is not in place.

Second, fig. 3:

1. the fit clearance is large and the sealing performance is not firm.

2. The falling-off is easy to cause after long-term use.

Third, as in fig. 4:

1. the inner and outer rings have high dimensional requirement precision and high cost.

2. The compression deformation is small, and the sealing performance is low.

3. Can easily fall off from one side after long-term use.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a combined sealing ring has the advantage of high rotational speed good reliability, high efficiency, high life, high reliability.

The utility model discloses the technical scheme who adopts that reaches above-mentioned purpose does:

the utility model provides a combined sealing ring, which comprises a sealing ring and a coil ring support; the sealing ring part is arranged in a sealing groove formed in the sealing surface; the disc ring support is sleeved on an inner ring of the sealing ring, the sealing ring is separated from the sealing surface, the degree of freedom of sliding of the sealing ring on the sealing surface is partially limited, and the extrusion deformation range of the sealing ring is limited to 0.4-1 time of the radius of the sealing ring by the disc ring support.

For the convenience of the utility model discloses a processing is realized the surface that the coil held in the palm includes intrados and extrados, and the sealing washer sets up in the intrados, the area of extrados is greater than the area of intrados.

In order to reduce the shearing deformation of the combined sealing ring during use, the cross section of the outer arc surface is arc-shaped.

Preferably, the intrados includes an arc portion concentric with the sealing surface and two arc portions perpendicular to the sealing surface, and the two arc portions perpendicular to the sealing surface are respectively disposed at two ends of the arc portion concentric with the sealing surface.

In order to limit the extrusion deformation amount of the sealing ring, the depth of the cross section of the inner cambered surface is larger than the radius of the sealing ring and smaller than 1.5 times of the radius of the sealing ring.

In order to limit the amount of extrusion deformation of the seal ring, it is preferable that the depth of the intrados cross section is greater than the radius of the seal ring and less than 1.3 times the radius of the seal ring.

In order to avoid scratching the sealing ring, a chamfer is arranged between the arc part vertical to the sealing surface and the arc part concentric with the sealing surface.

The utility model discloses the beneficial effect that can bring does:

1. the sealing performance of the combined seal is effectively realized, the outer-side hard concave sealing ring can be effectively deformed through extrusion under the working condition, and the outer wall of the inner-wall spline adapter is tightly attached through deformation. An effective way of sealing the groove is created for the inner annular rubber ring;

2. the size processing requirements of the inner ring and the outer ring are reduced, and the sealing size characteristics calculated through different working conditions are obviously reflected;

3. the sealing performance is good, the gaps on the two sides fully provide reasonable deformation after the inner ring is compressed, and the outer ring can compress the lower side by slight deformation to achieve the sealing performance;

4. the service life is long, and the damage degree of the upper part of the outer ring caused by long-term use is effectively reduced;

5. meanwhile, the inner ring is prevented from falling off and the sealing is not damaged due to long-term use;

6. meanwhile, the overvoltage to the bottom ends at the two sides of the inner ring part is reduced, and the influence on a rotating part is reduced;

drawings

Fig. 1 is a cross-sectional view of the combined sealing ring of the present invention.

Fig. 2 is an implementation of the background art.

Fig. 3 is an implementation of the background art.

Fig. 4 is an implementation of the background art.

Fig. 5 is an installation schematic diagram of the present invention, wherein: 10-combined sealing ring, 1-zero order blisk (combined sealing ring external attaching piece), 2-D head bolt, 3-steel wire retainer ring, 6-spline self-locking nut, 5-2 level rotor assembly, 6-1 level rotor assembly, 7-zero order disc balance ring, 8-spline adapter retaining ring, 9-spline adapter (combined sealing ring internal attaching piece) and No. 11-1 bearing.

Detailed Description

The present invention will be described in detail with reference to the attached drawings

In one embodiment of the present invention, a composite seal ring as shown in fig. 1 comprises a seal ring 101 and a coil holder 102; the sealing ring 101 is partially arranged in a sealing groove formed on the sealing surface; the disc ring holder 102 is sleeved on the inner ring of the sealing ring 101, separates the sealing ring 101 from the sealing surface and partially limits the degree of freedom of the sliding of the sealing ring 101 on the sealing surface, and the disc ring holder 102 simultaneously limits the extrusion deformation range of the sealing ring 101 to be 0.4-1 time of the radius of the sealing ring.

In one embodiment, as shown in fig. 1, in order to facilitate the processing of the present invention, the outer surface of the coil holder 102 includes an inner arc surface 103 and an outer arc surface 104, the sealing ring 101 is disposed in the inner arc surface 103, and the area of the outer arc surface 104 is greater than the area of the inner arc surface 103.

In one embodiment, to reduce the shear deformation of the sealing ring 101 during use, the cross section of the outer arc surface 104 is circular arc.

In one embodiment, as shown in fig. 1, the intrados surface 103 includes an arc portion concentric with the sealing surface and two arc portions perpendicular to the sealing surface, the two arc portions perpendicular to the sealing surface being respectively disposed at both ends of the arc portion concentric with the sealing surface.

In one embodiment, as shown in fig. 1, to limit the amount of squeeze deformation of the seal ring, the depth of the cross-section of the intrados 103 is greater than the radius of the seal ring 101 and less than 1.5 times the radius of the seal ring 101. In one embodiment, as shown in fig. 1, to limit the amount of squeeze deformation of the seal ring, the depth of the cross-section of the intrados 103 is greater than the radius of the seal ring 101 and less than 1.3 times the radius of the seal ring 101. In one embodiment, as shown in fig. 1, to avoid scratching the seal ring, a chamfer is provided between the circular arc portion perpendicular to the sealing surface and the circular arc portion concentric with the sealing surface.

The invention will now be further described with respect to specific installation conditions:

as shown in fig. 5, the composite seal ring 10 according to the present invention is installed between the spline adapter 9 (inner attachment piece of the composite seal ring 10) and the zero-stage blisk 1. The spline adapter 9 and the zero-level blisk 1 are connected and held through a spline adapter retaining ring 8. Will seal for both sides around through the sealing washer, the front end is close to No. 1 bearing 11 department and is the spline joint, has lubricating oil right side cavity for the air in, seals through combination sealing washer 10 and separates. The sealing function is realized. During operation, the zero-level rotor rotates, and dynamic sealing is realized through the combined sealing ring 10.

Claims (7)

1. The combined sealing ring is characterized by comprising a sealing ring (101) and a coil holder (102); the sealing ring (101) is partially arranged in a sealing groove formed in the sealing surface; the disc ring support (102) is sleeved on an inner ring of the sealing ring (101) and used for separating the sealing ring (101) from a sealing surface and partially limiting the degree of freedom of the sliding of the sealing ring (101) on the sealing surface, and the disc ring support (102) is also used for limiting the extrusion deformation range of the sealing ring (101) to be 0.4-1 time of the radius of the sealing ring.

2. The combined sealing ring according to claim 1, wherein the outer surface of the coil holder (102) comprises an inner arc surface (103) and an outer arc surface (104), the sealing ring (101) is arranged in the inner arc surface (103), and the area of the outer arc surface (104) is larger than that of the inner arc surface (103).

3. The composite seal ring according to claim 2, wherein the outer arc surface (104) has a circular arc-shaped cross section.

4. A composite seal ring according to claim 2, wherein the intrados surface (103) comprises an arc portion concentric with the sealing surface and two arc portions perpendicular to the sealing surface, the two arc portions perpendicular to the sealing surface being provided at both ends of the arc portion concentric with the sealing surface, respectively.

5. A composite seal ring according to claim 2, characterized in that the depth of the intrados surface (103) in cross-section is greater than the radius of the seal ring (101) and less than 1.5 times the radius of the seal ring (101).

6. A composite seal ring according to claim 5, characterized in that the depth of the intrados surface (103) in cross-section is greater than the radius of the seal ring (101) and less than 1.3 times the radius of the seal ring (101).

7. The composite seal ring according to claim 4, wherein a chamfer is provided between the circular arc portion perpendicular to the sealing surface and the circular arc portion concentric with the sealing surface.

Images