KR920008353A - Multifunctional Floating Seal Assembly for Scroll Machine - Google Patents

Abstract

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Description

Multifunctional Floating Seal Assembly for Scroll Machine

As this is a public information case, the full text was not included.

1 is a partial vertical cross-sectional view of a scroll machine utilizing fluid pressure to axially bias the non-orbital scroll member relative to the orbital scroll member;

2 is an enlarged vertical cross-sectional view showing a relaxed state of the floating chamber forming part of the first embodiment of the present invention;

FIG. 3 is a cross-sectional view taken along the line 3-2 in FIG. 2 and taken along the line 3-3 in FIG. 2;

Claims (51)

(a) a sealed shell; (b) an orbital scroll member disposed in the shell and having a first spiral wrap on a surface thereof; (c) a non-orbital scroll member having a second spiral wrap disposed in the shell and engaged with the first spiral wrap on a surface thereof; (d) means for orbiting the orbiting scroll member about an axis relative to the Gacedo scroll member such that the wraps form pockets having gradually varying volumes; (e) means for installing one of the scroll members to restrict the axial direction relative to the other scroll member; (f) form an annular cavity having an inner wall surface and an outer foot wall surface exposed to one surface of the scroll members to bias the one scroll member against the other scroll member as a compressed fluid in the cavity; (G) means for forming a fluid leak path between the cavity and the interior of the shell; (h) means for supplying fluid under pressure to the cavity to bias the scroll members together in an axial direction; And (i) annular seal means disposed in the child and having first and second chambers respectively sealingly coupled to the inner and outer wall surfaces to isolate the compressed fluid in the cavity from the leak passage. Scrolling machine. The scroll machine of claim 1, wherein the inner and outer wall surfaces are cylindrical and coaxial. The scroll machine of claim 1, wherein the machine is a compressor and the compressed fluid is a working fluid that is compressed from suction pressure to discharge pressure. The scroll machine of claim 3, wherein the compressed fluid is a pressure intermediate the suction pressure and the discharge pressure. The scroll machine of claim 1, wherein the seal means floats axially in the cavity. 2. The seal of claim 1 wherein the seal means has an inserted structure comprising a first annular element and a second annular element, the first and second chambers having inner and outer flat annular lips fixed between the elements. Scroll machine including threads. The scroll machine of claim 6, wherein the inner and outer and threads are variants of each other. The scroll machine of claim 6, wherein the inner and outer lip seals are separate parts. The scroll machine of claim 6, wherein the lip seal is formed of a material to which PTFE is added. 10. The scroll machine of claim 9, wherein glass is added to the PTFE. The scroll machine of claim 10, wherein the glass is approximately 5% of the actual material weight. 10. The scroll machine of claim 9, wherein MoS2 is added to the PTFE. The scroll machine of claim 12, wherein the MoS 2 is approximately 5% of the actual material weight. The scroll machine of claim 6, wherein the lip seals are flat when not in pressure. The scroll machine of claim 6, wherein each of the lip gods has a slightly exposed conical circumference when under pressure. The scroll machine of claim 15, wherein the upper lip seals are the plurality of inner and outer lip seals. The scroll machine of claim 6, wherein the plurality of lip seals have a canvas spacer element disposed between the threads. 18. The scroll machine of claim 17 wherein the spacer element is formed of a relatively rigid material and has a plurality of bumps on the surface portions of the element that engage with the lip seals. 7. A scroll machine according to claim 6, wherein the first element has a plurality of struts passing through the second element once circumferentially and axially extending. 20. The scroll machine of claim 19, wherein the free ends of the posts are swung to secure the lip seals between the elements. 20. The scroll machine of claim 19, wherein the lip seals are integral with each other and the posts extend through the threads. 20. The scroll machine of claim 19, wherein the inner and outer lip seals are separate parts and the posts extend between the threads. 7. A scroll machine according to claim 6, wherein said first element has an annular lip extending axially and said second element is formed of two annular parts disposed on opposite sides of said lip. The scroll machine of claim 23, wherein the lip is swung at circumferentially spaced points to secure the lip seals between the two annular parts and the elements between the elements. 7. The scroll machine of claim 6, wherein the real end comprises a plurality of inner lip seals. 7. A scroll machine according to claim 6, wherein the machine is a compressor and has a second leak passage between the cavity and the area in the shell under the discharge pressure. 27. The scroll machine of claim 26 wherein the first and second chambers isolate the cavity in the discharge pressure region. 27. The seal of claim 26 wherein one side of the seal means is exposed to the fluid in the cavity with the first chambers separating the cavity at the discharge pressure region and the second chamber isolating the cavity inside the shell. And the opposing face of the seal means is exposed to both the interior and the discharge pressure of the shell, the seal means having a third annular seal for isolating the interior of the shell from the discharge pressure beyond the opposing face of the seal means. Scrolling machine. 29. The scroll machine of claim 28, wherein the third chamber is integral with the second element of the thread means. 27. The scroll machine of claim 26, wherein the seal means floats axially in the cavity. 29. The scroll machine of claim 28, wherein the compressor has a fluid discharge hole in the partition wall disposed in the shell, and the third chamber surrounds the fluid discharge hole. 32. The scroll machine of claim 31, wherein the compressor has a fluid discharge hole in the partition wall disposed in the shell, and the third chamber surrounds the fluid discharge hole. 33. The scroll machine of claim 32 wherein the valve seat is a separate annular member attached to the partition walls and surrounds the fluid aperture. 33. The scroll machine of claim 32, wherein the valve seal is a locally hardened surface on the partition wall surrounding the fluid valve aperture. The scroll machine of claim 1, wherein the one scroll member is the non-orbital scroll member. The scroll machine of claim 1, wherein the machine has a discharge zone under discharge pressure and has a second leak passage between the cavity and the discharge zone. 37. The scroll machine of claim 36, wherein the first and second chambers isolate the cavity from the discharge pressure region. 37. The seal of claim 36 wherein one side of the seal means is in contact with the fluid in the cavity with the first chamber isolating the cavity at the discharge pressure region and the second chamber isolating the cavity inside the shell. Exposed, the opposing face of the seal means being exposed to both the interior and the discharge pressure of the shell, the seal means having a third equivalent for isolating the interior of the shell from the discharge pressure beyond the opposing face of the seal means. Scrolling machine including thread. 39. The scroll machine of claim 38, wherein the third chamber is integral with the second element of the seal means. (a) a sealed shell; (b) an orbital scroll member disposed in said sherry and having a first spiral wrap on a surface thereof; (c) a non-orbital scroll member having a second spiral wrap engaged with the first spiral wrap on a surface disposed in the shell; (d) means for orbiting the orbiting scroll member about an axis about the non-orbiting scroll member to form pockets with gradually decreasing volume of the laps so that the fluid can be compressed from suction pressure to discharge pressure. ; (e) means for installing one of said scroll members to restrictively move axially relative to another scroll member; (f) means for forming a cavity exposed on the surface of one of the scroll members to bias the one scroll member against another scroll member as a compressed fluid within the cavity; (g) means for forming a first fluid leak passage between the cavity and the region in the shell under suction pressure; (h) means for forming a second fluid leak passage between the cavity and the area in the shell under discharge pressure; (i) means for supplying fluid to the cavity at an intermediate pressure of the suction and discharge pressures to bias the scroll members together in an axial direction; And (j) seal means arranged in the cavity, the first chamber to isolate the compressed fluid in the cavity from the first leak passage, the second chamber to isolate the cavity from the second leak passage, and suction pressure And a seal means having a third chamber to isolate the fluid below from the fluid under suction pressure beyond the surface of the seal means. 41. The scroll machine of claim 40 wherein the seal means floats axially within the cavity with the first and second chambers effectively maintained. 41. The annular lip seal of claim 40, wherein said seal means comprises a first annular element and a second annular element as an inserted structure, said first and second chambers being fixed between said elements. Scroll machine that includes them. 43. The scroll machine of claim 42, wherein the inner and outer lip seals are integral with one another. 43. The scroll machine of claim 42, wherein the inner and outer lip seals are separate parts. 43. The scroll machine of claim 42, wherein the plurality of inner lip yarns have an annular spacer element disposed therebetween. 41. The scroll machine of claim 40, wherein all of the threads are annular and the third chamber has a diameter capable of providing reliable sealing under normal operating conditions. 47. The scroll machine according to claim 46, wherein the width of the third chamber is defined such that the unit pressure in the sealing direction is higher than the normal discharge pressure. 41. A scroll machine according to claim 40, wherein said seal means floats axially in said cavity and said seal means moves axially so that said third chamber is inoperative when a vacuum is created in said compressor suction shaft. (a) an inner annular lip seal suitable for sealing engagement with the outside of the first cylindrical surface; (b) an outer one-phase lip seal suitable for sealingly bonding with the inner side of the second cylindrical surface; (c) first and second fixing elements for securing the first and second chambers therebetween; And (d) a third annular seal operatively associated with one of the elements and suitable for sealing engagement with a flat annular seal surface, the multifunction seal assembly mounted to move along a central axis of the seals. 50. The multifunctional thread assembly of claim 49, wherein the three threads are coaxial with each other. 50. The multifunctional seal assembly of claim 49, wherein the first and second cylindrical surfaces form sidewalls of an annular cavity and the sealing surface is disposed opposite the bottom of the cavity. ※ Note: The disclosure is based on the initial application.