CN102022548A - Mechanical seal structure of spike-shaped distribution microporous end surface - Google Patents

Abstract

The invention provides a mechanical seal structure of a spike-shaped distribution microporous end surface, comprising a moving ring and a static ring which are mechanically sealed, wherein the one side of the end surface of the moving ring and one side of the end surface of the static ring are high pressure sides, namely upstream; the other side of the end surface of the moving ring and the other side of the end surface of the static ring are low pressure sides, namely downstream; at least one end surface of the moving ring or static ring is provided with a group of spike-shaped micropores which are symmetrically distributed based on a rotation center and composed of inclined hydrodynamic micropores and nondirectional decompressed micropores, wherein the decompressed micropores are arranged at the tail ends of the hydrodynamic micropores; the spike-shaped micropore group forms a ring belt which is arranged on the upstream of the end surface; and the downstream of the ring belt is provided with an annular seal dam with a smooth plane. The mechanical seal structure has the beneficial effects that seal disturbance-resistant capability and stability are improved by controlling fluid hydrodynamic effect of the microporous end surface and increasing damp; the capability and advantage that micropores can prevent solid particles can be fully performed; and the fluid hydrodynamic effect and disturbance resistivity are enhanced so that noncontact stability and wear resistivity of seal are improved, the service life is prolonged, and the reliability of the seal is improved.

Description

A kind of fringe shape microporous end surface mechanical sealing structure of arranging

Technical field

The invention belongs to the mechanical end face seal technical field, particularly be applicable to the shaft end seal device of rotating machinery rotating shafts such as various compressors, pump and still, relate in particular to a kind of fringe shape microporous end surface mechanical sealing structure of arranging.

Background technique

Because the peculiar advantage of surface texture technology aspect surperficial antifriction, the application of having succeeded in mechanical seal, engineering practice show that the anti-friction wear-resistant effect of surface micro-structure can effectively improve the wear resistance and the working life of seal face.Particularly in easily vaporization crystallization, solid content is higher or occasion such as high operating parameter, the micropore enclosed watch reveals the excellent friction characteristic, the research and the application of micropore sealing are subject to people's attention day by day.

Invented a kind of many (little) hole end surface sealing applications at first in pump class I liquid I gland seal device from Etsion I., open the problem of ability for improving microporous end surface dynamic pressure in dry gas seals and low speed operating mode, variation cloth micropore, spiral chute assistant micropore, multiple micropore seal face structure such as directional microporous have appearred both at home and abroad successively, effectively improve the unlatching ability of microporous end surface, the anti-solid particle ability that can make full use of microcellular structure prolongs the working life of seal face.But dynamic pressure unlatching ability easily causes the antijamming capability variation of fluid-encapsulated film when improving, particularly be prone to contact wear in high rotating speed operating mode lower end surface, has offset the anti-attrition advantage of micropore to a great extent, the reliability and the working life of influence sealing.

Summary of the invention

In order to overcome the deficiency of the high speed poor anti jamming capability that seals in the prior art, the invention provides a kind of medium that can be applied to various conditions, improve the servo-actuated of microporous end surface, reduce the contact wear of end face, give full play to the anti-attrition advantage of microporous end surface, make that sealing is anti-interference effective, but frequent starting, reliability height, the fringe shape of the long service life microporous end surface mechanical sealing structure of arranging.

Technological scheme of the present invention is:

A kind of fringe shape microporous end surface mechanical sealing structure of arranging, the rotating ring that comprises mechanical seal, stationary ring, one side of the end face of described rotating ring and stationary ring is that the high pressure side is the upstream, the opposite side of the end face of described rotating ring and stationary ring is that low voltage side is the downstream, it is characterized in that: have the fringe shape micropore group of forming by tilting dynamic pressure micropore and directionless decompression micropore that is symmetrically distributed according to rotating center at least one end face of described rotating ring or stationary ring, described decompression micropore is located at the end of dynamic pressure micropore, described fringe shape micropore group constitutes endless belt, described endless belt is located at the end face upstream, and the downstream of described endless belt is provided with the ring packing dam of smooth flat.

Further, described endless belt radially is provided with a plurality of fringe shape micropore groups.

Perhaps, described endless belt is along being provided with a plurality of fringe shape micropore groups with the direction that radially is in the tilted angle.

Further, described dynamic pressure micropore is a directivity dynamic pressure micropore, and the ratio of its major axis and minor axis is greater than 1, and described major axis becomes the angle of inclination with seal face diameter by dynamic pressure micropore center.

Further, described dynamic pressure micropore degree of depth span is 2 ~ 10 μ m; The ratio span of the major axis of described dynamic pressure micropore and minor axis is 1 ~ 10; The minor axis span of described dynamic pressure micropore is 10～1000 μ m.

Further, the radial width scope on described ring packing dam is 0.1～10 mm.

Dynamic pressure micropore of the present invention is directional microporous, and the shape of micropore can be regular figures such as ellipse, rectangular, rhombus; The shape of described decompression micropore can be regular figures such as circle, square, Hexagon.

Working principle of the present invention:

Making the radial fluid resistance reduce to cause sealing the upstream high pressure after dynamic pressure micropore in the fringe shape micropore group tilts under the speed shear action moves and forms the dynamic pressure opening force to low voltage side, form miniature dynamic pressure groove, thereby improved the dynamic pressure opening force of whole seal face, its power is decided by pore size and angle of inclination, and whole fringe shape distribution micropore group can further be passed through direct fluid improved effect unseal performance.When fluid was continuing to enter the decompression micropore under the shear action after, because fluid displacement increases suddenly, pressure sharply reduced, thereby the high pressure of dynamic pressure micropore is suppressed.When low voltage starting, can separate the seal face friction pair fast, under high-speed condition, the rigidity of may command fluid film improves the stability of fluid film.The seal clearance size mutation effect of the bigger formation of hole depth and aperture of micropore makes the fluid that flows to micropore produce eddy current in the fringe shape micropore group simultaneously, enlarge markedly the damping of seal face fluid film, reduce the sealing vibration, further strengthen the stability of high speed lower seal, reduce the contact friction of seal face.

Fringe shape micropore group is located at the end face upstream, it is the high pressure side, can well stop solid particle to enter seal face, after micro-particle enters end face, micropore can play the effect of receiving, effectively bring into play the ability of the anti-solid particle of micropore, the anti-attrition abrasive resistance improves, and makes sealing can be applied to contain the higher occasion of concentration of solid particles.Simultaneously, distinctive tilting dynamic pressure micropore improves hydrodynamic effect between end face greatly, provides the maintenance end face non-contacting maximum capacity, increased the axial rigidity of sealing, and when speed was too high, the decompression micropore is suppression fluid film rigidity effectively.The damping effect of micropore significantly reduces the sealing vibration in the fringe shape micropore group, strengthened the disturbance rejection ability of seal face, thereby made the antijamming capability of sealing or startup or stopping performance stable and under the low pressure condition be better than the mechanical seal of general spiral chute hydrodynamic.

Beneficial effect of the present invention mainly shows: the tilting dynamic pressure microcellular structure of uniqueness and decompression micropore on l, the seal face, and the hydrodynamic effect of may command microporous end surface, increase damping have improved sealing disturbance rejection ability and stability; 2, liquid medium and gas medium can be applied to by the hole depth that micropore is set, the ability and the advantage of the anti-solid particle of micropore can be given full play to; 3, hydrodynamic effect of Zeng Qianging and disturbance rejection have improved the non-contact stability that seals, wear-resistant, have prolonged working life, have improved the reliability of sealing.

Description of drawings

Fig. 1 is one embodiment of the present invention end-face structure schematic representation.

Fig. 2 is the enlarged view of A part among Fig. 1.

Fig. 3 is a longitudinal sectional view of the present invention.

Fig. 4 is an another embodiment of the invention end-face structure schematic representation.

Embodiment

Embodiment one

With reference to Fig. 1-3, a kind of fringe shape microporous end surface mechanical sealing structure of arranging, the rotating ring 4 that comprises mechanical seal, stationary ring 3, one side of the end face of described rotating ring 4 and stationary ring 3 is that the high pressure side is the upstream, the opposite side of the end face of described rotating ring 4 and stationary ring 3 is that low voltage side is the downstream, have the fringe shape micropore group of forming by tilting dynamic pressure micropore 11 and directionless decompression micropore 12 that is symmetrically distributed according to rotating center on described stationary ring 3 end faces, described decompression micropore 12 is located at the end of dynamic pressure micropore 11, described fringe shape micropore group 1 constitutes endless belt, described endless belt is located at the end face upstream, and the downstream of described endless belt is provided with the ring packing dam of smooth flat.

Described endless belt radially is provided with a plurality of fringe shape micropore groups 1.Described dynamic pressure micropore 11 is directivity dynamic pressure micropores, and the ratio of its major axis and minor axis is greater than 1, and described major axis becomes the angle of inclination with seal face diameter by dynamic pressure micropore 11 centers.

Described dynamic pressure micropore 11 depth optimization spans are 2 ~ 10 μ m; The preferred span of ratio of the major axis of described dynamic pressure micropore 11 and minor axis is 1 ~ 10; The minor axis span of described dynamic pressure micropore 11 is 10～1000 μ m.

The radial width scope on described ring packing dam 2 is 0.1～10 mm.

Dynamic pressure micropore of the present invention is directional microporous, and the shape of micropore can be regular figures such as ellipse, rectangular, rhombus; The shape of described decompression micropore can be regular figures such as circle, square, Hexagon.

Working principle of the present invention:

Making the radial fluid resistance reduce to cause sealing the upstream high pressure after dynamic pressure micropore 11 in the fringe shape micropore group 1 tilts under the speed shear action moves and forms the dynamic pressure opening force to low voltage side, form miniature dynamic pressure groove, thereby improved the dynamic pressure opening force of whole seal face, its power is decided by pore size and angle of inclination, and whole fringe shape distribution micropore group 1 can further be passed through direct fluid improved effect unseal performance.When fluid was continuing to enter decompression micropore 12 under the shear action after, because fluid displacement increases suddenly, pressure sharply reduced, thereby the high pressure of dynamic pressure micropore is suppressed.When low voltage starting, can separate the seal face friction pair fast, under high-speed condition, the rigidity of may command fluid film improves the stability of fluid film.The seal clearance size mutation effect of the bigger formation of hole depth and aperture of micropore makes the fluid that flows to micropore produce eddy current in the fringe shape micropore group 1 simultaneously, enlarge markedly the damping of seal face fluid film, reduce the sealing vibration, further strengthen the stability of high speed lower seal, reduce the contact friction of seal face.

Fringe shape micropore group 1 is located at the end face upstream, it is the high pressure side, can well stop solid particle to enter seal face, after micro-particle enters end face, micropore can play the effect of receiving, effectively bring into play the ability of the anti-solid particle of micropore, the anti-attrition abrasive resistance improves, and makes sealing can be applied to contain the higher occasion of concentration of solid particles.Simultaneously, distinctive tilting dynamic pressure micropore 11 improves hydrodynamic effect between end face greatly, provides the maintenance end face non-contacting maximum capacity, increased the axial rigidity of sealing, and when speed was too high, decompression micropore 12 is suppression fluid film rigidity effectively.The damping effect of micropore significantly reduces the sealing vibration in the fringe shape micropore group 1, strengthened the disturbance rejection ability of seal face, thereby made the antijamming capability of sealing or startup or stopping performance stable and under the low pressure condition be better than the mechanical seal of general spiral chute hydrodynamic.

Embodiment two

With reference to Fig. 4, present embodiment and embodiment's one difference is that described endless belt is along being provided with a plurality of fringe shape micropore groups 1 with the direction that radially is in the tilted angle.All the other structures are all identical with embodiment one with function.

The described content of this specification embodiment only is enumerating the way of realization of inventive concept; protection scope of the present invention should not be regarded as only limiting to the concrete form that embodiment states, protection scope of the present invention also reach in those skilled in the art conceive according to the present invention the equivalent technologies means that can expect.

Claims (6)

1. fringe shape microporous end surface mechanical sealing structure of arranging, the rotating ring that comprises mechanical seal, stationary ring, one side of the end face of described rotating ring and stationary ring is that the high pressure side is the upstream, the opposite side of the end face of described rotating ring and stationary ring is that low voltage side is the downstream, it is characterized in that: have the fringe shape micropore group of forming by tilting dynamic pressure micropore and directionless decompression micropore that is symmetrically distributed according to rotating center at least one end face of described rotating ring or stationary ring, described decompression micropore is located at the end of dynamic pressure micropore, described fringe shape micropore group constitutes endless belt, described endless belt is located at the end face upstream, and the downstream of described endless belt is provided with the ring packing dam of smooth flat.

2. a kind of fringe shape according to claim 1 microporous end surface mechanical sealing structure of arranging, it is characterized in that: described endless belt radially is provided with a plurality of fringe shape micropore groups.

3. a kind of fringe shape according to claim 1 microporous end surface mechanical sealing structure of arranging is characterized in that: described endless belt is along being provided with a plurality of fringe shape micropore groups with the direction that radially is in the tilted angle.

4. according to the described a kind of fringe shape of one of claim 1 ~ 3 microporous end surface mechanical sealing structure of arranging, it is characterized in that: described dynamic pressure micropore is a directivity dynamic pressure micropore, the ratio of its major axis and minor axis is greater than 1, and described major axis becomes the angle of inclination with seal face diameter by dynamic pressure micropore center.

5. a kind of fringe shape according to claim 4 microporous end surface mechanical sealing structure of arranging, it is characterized in that: described dynamic pressure micropore degree of depth span is 2 ~ 10 μ m; The ratio span of the major axis of described dynamic pressure micropore and minor axis is 1 ~ 10; The minor axis span of described dynamic pressure micropore is 10～1000 μ m.

6. a kind of fringe shape according to claim 5 microporous end surface mechanical sealing structure of arranging, it is characterized in that: the radial width scope on described ring packing dam is 0.1～10 mm.

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