CN212377292U - Integrated closed spring compensation static ring assembly of mechanical sealing device - Google Patents

Abstract

The utility model discloses a mechanical seal device integrated closed type spring compensation stationary ring component, which comprises a stationary ring (1), a stationary ring sliding seal ring (2), a stationary ring seat (3), a stationary ring seat sliding seal ring (4), a stationary ring anti-rotation pin (5), a stationary ring seat anti-rotation pin (6), a compensation spring (7), a gland (8) and a stationary ring seat limit screw (9); its quiet ring, quiet ring holder, the mutual cooperation structure of gland make quiet ring holder and gland between inner chamber (80) sealed, use compensating spring to be in sealed intracavity and seal the protection, during the medium can not enter into compensating spring and spring mount pad hole, can not lead to spring compensation to become invalid because of the condensing of medium or crystallization blocking compensating spring to make quiet ring subassembly and gland collection dress together through quiet ring holder stop screw, manufacturing, transportation, installation convenient to use.

Description

Integrated closed spring compensation static ring assembly of mechanical sealing device

Technical Field

The utility model relates to a mechanical seal device, especially mechanical seal device's spring compensation stationary ring subassembly.

Background

The spring compensation static ring component of the mechanical sealing device comprises a static ring, a static ring seat, a static ring sliding sealing ring, a compensation spring, a static ring rotation prevention pin and a gland.

The static ring is arranged on the static ring seat in a sliding fit manner, a static ring sliding sealing ring is arranged between the matching surfaces of the static ring and the static ring seat, a static ring anti-rotation pin is arranged between the rear end of the static ring and the static ring seat, a plurality of compensation springs which are uniformly distributed on the circumference are arranged between the rear end of the static ring and the static ring seat, and the static ring seat is fixedly connected with the gland; or the gland replaces the static ring seat, and the static ring sliding sealing ring, the compensating spring and the static ring anti-rotating pin are directly installed in a matching way with the gland. According to different media and different use working conditions, the specific matching structures of the spring compensation static ring assembly are different respectively so as to meet the design and use requirements.

The mechanical sealing device of the spring compensation static ring in the prior art is provided with a static ring sliding sealing ring between a gland and the outer circular surface of the static ring, and is provided with a static ring sliding sealing ring retaining ring and a spring push ring, and can seal the axial direction of the outer circular surface of the static ring, namely, a leakage channel between the outer circular surface of the static ring and the gland is sealed, the medium in a mechanical sealing inner cavity (the outer circular cavity of the static ring) can not directly enter a compensation spring, so that impurities in the medium can be prevented from entering a compensation spring and a compensation spring seat hole, the compensation spring is blocked, and the working performance of the compensation spring is protected. However, leakage liquid on the end faces of the static ring and the moving ring splashes along with the rotation of the shaft and enters the compensation spring and the compensation spring seat hole from the outer side (atmosphere end) of the sealing device, impurities in leakage media slowly accumulate in the compensation spring and the compensation spring seat hole, particularly, normal-temperature condensation media and normal-temperature crystallization media block the compensation spring due to the condensation or crystallization of the media, so that the compensation failure and the mechanical sealing failure of the spring are caused, and the service life of the mechanical sealing device cannot reach the expectation.

And each component part of the spring compensation static ring component in the prior art can not be integrated, so that the spring compensation static ring component is particularly not suitable for vertical installation and use and is inconvenient to transport, install and use.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a mechanical seal device integrated closed spring compensation static ring component, which not only integrates the spring compensation static ring component together for convenient installation and use, but also carries out sufficient sealing protection on a compensation spring so as to prevent a medium from entering a compensation spring part for condensation or crystallization to cause the blockage of the compensation spring and improve the service life; the pump is particularly suitable for sealing the pump under the harsh conditions of normal-temperature condensation, normal-temperature crystallization and the like of a conveying medium, and is particularly suitable for the working conditions that the pressure is less than or equal to 4.2Mpa, the temperature is less than or equal to 176 ℃, and the rotating speed is less than or equal to 6000 RPM.

The utility model discloses the quiet ring subassembly of the integrated closed spring compensation of mechanical seal device comprises quiet ring 1, quiet ring sliding seal circle 2, quiet ring seat 3, quiet ring seat sliding seal circle 4, quiet ring stop pin 5, quiet ring seat stop pin 6, compensating spring 7, gland 8, quiet ring seat stop screw 9.

The excircle of the static ring 1 is in sliding fit with the gland 8, and a sealing groove and a static ring sliding sealing ring 2 are arranged on the sliding fit surface of the gland 8 and the excircle of the static ring 1.

The stationary ring seat 3 is in a ring sleeve shape, and the inner circular surface of the rear end part of the stationary ring 1 is closely and fixedly matched and connected with the outer circular surface of the front end part of the stationary ring seat 3; the outer circle surface of the rear part of the static ring seat 3 is in sliding fit with the gland 8, and a sealing groove and a static ring seat sliding sealing ring 4 are arranged on the sliding fit surface of the gland 8 and the outer circle of the static ring seat 3.

Seted up excircle boss fender ring 31 on quiet ring seat 3, fixed connection quiet ring rotational pin 5 on the left side terminal surface of the excircle boss fender ring 31 of quiet ring seat, correspond at 1 right-hand member of quiet ring and set up quiet ring rotational pin groove 32, quiet ring rotational pin 5 prevents changeing quiet ring 1 with quiet ring rotational pin groove 32 cooperation on the quiet ring seat.

The fixed ring seat anti-rotation pin 6 is fixedly connected to the right end face of the excircle boss retaining ring 31 of the fixed ring seat, the fixed ring seat anti-rotation pin groove 81 is correspondingly formed in the gland 8, and the fixed ring seat anti-rotation pin 6 is matched with the fixed ring seat anti-rotation pin groove 81 in the gland to prevent rotation of the fixed ring seat 3.

A plurality of spring mounting seat holes 83 are uniformly distributed on the circumference of the gland 8 corresponding to the right side end of the excircle boss retaining ring 31 of the static ring seat, the compensating springs 7 are mounted in the spring mounting seat holes 83 distributed on the circumference of the gland, and the compensating springs 7 and the right side end face of the excircle boss retaining ring 31 of the static ring seat are matched to push the static ring seat 3 and the static ring 1 to perform axial elastic compensation; so that the static ring and the dynamic ring keep a joint state.

The excircle face that corresponds excircle boss fender ring 31 of quiet ring seat on gland 8 has seted up spacing slotted hole 85, keeps off ring 31 screw-thread fit fixed connection with the excircle boss of quiet ring seat in this spacing slotted hole 85 and is equipped with quiet ring seat stop screw 9, but through the ascending sliding fit of spacing slotted hole 85 on quiet ring seat stop screw 9 and the gland 8, guarantees promptly that quiet ring seat 3 is in axial compensation drunkenness to make quiet ring subassembly and gland 8 collection dress together.

The utility model discloses quiet ring 1, quiet ring seat 3, the mutual cooperation structure of gland 8 makes the inner chamber 80 between quiet ring seat 3 and gland 8 sealed, use compensating spring 7 and spring mount seat hole 83 to be located sealed intracavity, make compensating spring 7 and spring mount seat hole 83 be closed completely and protect, compensating spring 7 and spring mount seat hole 83 are isolated completely with the medium that quiet ring and rotating ring friction seal terminal surface leaked, quiet ring and rotating ring friction seal terminal surface leak the medium and can not splash and enter into compensating spring 7 and spring mount seat hole 83 along with the rotation of axle, so can not take place to pile up on compensating spring 7 with in spring mount seat hole 83, can not block compensating spring because of the condensation or crystallization of medium, lead to spring compensation inefficacy and mechanical seal inefficacy. The pump is particularly suitable for sealing the conveying medium under the harsh conditions of normal-temperature condensation, normal-temperature crystallization and the like, is particularly suitable for working conditions of pressure less than or equal to 4.2Mpa, temperature less than or equal to 176 ℃, and rotating speed less than or equal to 6000RPM, and effectively prolongs the service life of mechanical seal.

The utility model discloses mechanical seal device can be used in the forward and reverse, owing to make compensating spring 7 and spring mounting seat hole 83 be sealed the protection completely, during the reverse application medium also can not enter into compensating spring and compensating spring seat hole, the medium condense or the crystallization, medium impurity can not block compensating spring.

The utility model discloses a quiet ring holder stop screw 9 makes quiet ring subassembly and gland 8 collection dress together, simple structure, manufacturing, transportation, installation convenient to use only are suitable for the horizontal installation and use, also are suitable for perpendicular installation and use.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

Detailed Description

The utility model discloses the quiet ring subassembly of the integrated closed spring compensation of mechanical seal device comprises quiet ring 1, quiet ring sliding seal circle 2, quiet ring seat 3, quiet ring seat sliding seal circle 4, quiet ring stop pin 5, quiet ring seat stop pin 6, compensating spring 7, gland 8, quiet ring seat stop screw 9.

The outer circle of the static ring 1 is in sliding fit with the gland 8, and a sealing groove and a static ring sliding sealing ring 2 are arranged on the sliding fit surface of the gland 8 and the outer circle of the static ring 1;

the stationary ring seat 3 is in a ring sleeve shape, and the inner circular surface of the rear end part of the stationary ring 1 is in interference fit and connection with the outer circular surface of the front end part of the stationary ring seat 3; the outer circle surface of the rear part of the static ring seat 3 is in sliding fit with the gland 8, and a sealing groove and a static ring seat sliding sealing ring 4 are arranged on the sliding fit surface of the gland 8 and the outer circle of the static ring seat 3;

an outer circle boss retaining ring 31 is arranged on the static ring seat 3, a cylindrical head screw static ring anti-rotation pin 5 is fixedly connected to the left side end face of the outer circle boss retaining ring 31 of the static ring seat, a static ring anti-rotation pin groove 32 is correspondingly arranged at the right end of the static ring 1, and the cylindrical head screw static ring anti-rotation pin 5 is matched with the static ring anti-rotation pin groove 32 on the static ring seat to prevent the static ring 1 from rotating;

a cylindrical head screw static ring seat anti-rotation pin 6 is fixedly connected to the right end face of the excircle boss retaining ring 31 of the static ring seat, a static ring seat anti-rotation pin groove 81 is correspondingly formed in the gland 8, and the cylindrical head screw static ring seat anti-rotation pin 6 is matched with the static ring seat anti-rotation pin groove 81 in the gland to prevent the static ring seat 3 from rotating;

a plurality of spring mounting seat holes 83 are uniformly distributed on the circumference of the gland 8 corresponding to the right side end of the excircle boss retaining ring 31 of the static ring seat, the compensating springs 7 are mounted in the spring mounting seat holes 83 distributed on the circumference of the gland, and the compensating springs 7 and the right side end face of the excircle boss retaining ring 31 of the static ring seat are matched to push the static ring seat 3 and the static ring 1 to perform axial elastic compensation;

the excircle face that corresponds excircle boss fender ring 31 of quiet ring seat on gland 8 has seted up spacing slotted hole 85, keep off ring 31 screw-thread fit fixed connection with the excircle boss of quiet ring seat in this spacing slotted hole 85 and be equipped with cylindric head screw quiet ring seat stop screw 9, but through the spacing slotted hole 85 of cylindric head screw quiet ring seat stop screw 9 on with gland 8 in the ascending sliding fit of axial, guarantee promptly that quiet ring seat 3 is at axial compensation drunkenness, and make quiet ring subassembly and gland 8 collection dress together.

The utility model discloses a reach best sealed effect:

B=(D₂ ²-D_b ²)/(d₂ ²-D₁ ²)=0.70-0.75

b-balance coefficient

D₂Outer diameter (mm) of the sealing end face

D₁Inner diameter (mm) of the sealing end face）

D_b-slip diameter (mm).

Claims (1)

1. The mechanical sealing device integrated closed type spring compensation static ring component is characterized by comprising a static ring (1), a static ring sliding sealing ring (2), a static ring seat (3), a static ring seat sliding sealing ring (4), a static ring anti-rotation pin (5), a static ring seat anti-rotation pin (6), a compensation spring (7), a gland (8) and a static ring seat limiting screw (9);

the outer circle of the static ring (1) is in sliding fit with the gland (8), and a sealing groove and a static ring sliding sealing ring (2) are arranged on the sliding fit surface of the gland (8) and the outer circle of the static ring (1);

the stationary ring seat (3) is in a ring sleeve shape, and the inner circular surface of the rear end part of the stationary ring (1) is tightly and fixedly matched and connected with the outer circular surface of the front end part of the stationary ring seat (3); the outer circle surface of the rear part of the static ring seat (3) is in sliding fit with the gland (8), and a sealing groove and a static ring seat sliding sealing ring (4) are arranged on the sliding fit surface of the gland (8) and the outer circle of the static ring seat (3);

an excircle boss retaining ring (31) is arranged on the static ring seat (3), a static ring anti-rotation pin (5) is fixedly connected to the left end face of the excircle boss retaining ring (31) of the static ring seat, a static ring anti-rotation pin groove (32) is correspondingly arranged at the right end of the static ring (1), and the static ring anti-rotation pin (5) is matched with the static ring anti-rotation pin groove (32) on the static ring seat to prevent the static ring (1) from rotating;

a static ring seat anti-rotation pin (6) is fixedly connected to the right end face of an excircle boss retaining ring (31) of the static ring seat, a static ring seat anti-rotation pin groove (81) is correspondingly formed in the gland (8), and the static ring seat anti-rotation pin (6) is matched with the static ring seat anti-rotation pin groove (81) in the gland to prevent rotation of the static ring seat (3);

a plurality of spring mounting seat holes (83) are uniformly distributed on the circumference of the gland (8) corresponding to the right side end of the excircle boss retaining ring (31) of the static ring seat, compensation springs (7) are mounted in the spring mounting seat holes (83) distributed on the circumference of the gland, and the compensation springs (7) and the right side end face of the excircle boss retaining ring (31) of the static ring seat are matched to push the static ring seat (3) and the static ring (1) to perform axial elastic compensation;

the outer circle face of the outer circle boss retaining ring (31) corresponding to the static ring seat on the gland (8) is provided with a limiting groove hole (85), the outer circle boss retaining ring (31) in the limiting groove hole (85) is fixedly connected with the outer circle boss retaining ring (31) of the static ring seat in a threaded matching mode and is provided with a static ring seat limiting screw (9), the static ring seat limiting screw (9) is in sliding fit with the limiting groove hole (85) in the gland (8) in the axial direction, the static ring seat (3) can move in the axial compensation mode, and the static ring assembly and the gland (8) are assembled together.

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