초록 ▼

Suction gas feed assemblies to provide gas to a hermetic compressor are provided. The feed assemblies have capacity for reducing suction noise resulting from suction conduit vibration, valving operation, suction gas pulsing, or the like. The suction gas feed assemblies include a suction plenum in th

Suction gas feed assemblies to provide gas to a hermetic compressor are provided. The feed assemblies have capacity for reducing suction noise resulting from suction conduit vibration, valving operation, suction gas pulsing, or the like. The suction gas feed assemblies include a suction plenum in the form of a substantially cylindrical end cap or motor cap having substantially straight side wall, a contoured top wall, and a gas inlet aperture and suction conduit aperture which are configured to provide strong suction and motor cooling, with reduced superheat, suction pulsation, and noise attenuation. The motor cap has excellent structural stiffness and low sound radiation.

대표청구항 ▼

What is claimed is: 1. A suction gas feed assembly for a hermetic compressor unit having an electric motor driven compressor mechanism mounted in the feed assembly comprising: a motor cap comprising: a circumferential sidewall, the sidewall comprising a suction conduit aperture and a gas inlet aper

What is claimed is: 1. A suction gas feed assembly for a hermetic compressor unit having an electric motor driven compressor mechanism mounted in the feed assembly comprising: a motor cap comprising: a circumferential sidewall, the sidewall comprising a suction conduit aperture and a gas inlet aperture, the suction conduit aperture being disposed opposite and in substantial alignment with the gas inlet aperture; a top wall disposed adjacent the sidewall and being configured to form a closed end, the top wall comprising protruding portions and recessed portions, the protruding portions and recessed portions being configured and disposed to control and direct the flow of suction gas within the motor cap to provide a substantially uninterrupted flow of suction gas between the gas inlet aperture and suction conduit aperture; an opening, the opening being disposed in substantial sealing contact with an unencumbered end of the motor to form a suction plenum for a compressor mechanism; a suction conduit having a first end and a second end opposite the first end, the first end of the suction conduit being mounted in the suction conduit aperture in the sidewall, the second end of the suction conduit being configured for subsequent connection to compressor mechanism; wherein the motor cap has a substantially cylindrical shape with a substantially straight sidewall, the sidewall having a substantially circular horizontal cross-sectional geometry defined by a major axis and a minor axis, the major axis dividing the motor cap into two hemispheres; wherein the top wall and the sidewall intersect to form an outwardly curved annular circumferential portion extending around the perimeter of the end cap; wherein the recessed portions of the top wall comprise a recessed cylindrical portion centered at the intersection of the major and minor axis; wherein the protruding portions of the top wall comprise a raised bridge portion having a peak extending from the recessed cylindrical portion to the outwardly curved circumferential portion, the longitudinal axis of the peak in substantial alignment with the major axis; and wherein the suction conduit aperture, gas inlet aperture, and the peak are all located on one half hemisphere of the motor cap. 2. The feed assembly of claim 1, wherein the raised bridge portion further comprises two annularly curved symmetric sloping portions originating at, and centered on, the longitudinal axis of the peak, each annularly curved symmetric sloping portion extending from the recessed cylindrical portion to the outwardly curved circumferential portion and extending from about 8 degrees to about 40 degrees around the outwardly curved circumferential perimeter as measured from the peak. 3. The feed assembly of claim 2, wherein the suction conduit aperture and the gas inlet aperture are spaced apart a distance of from about one-third to about one-half of the total maximum circumferential dimension of the sidewall. 4. The feed assembly of claim 3, wherein the suction conduit aperture means and the gas inlet aperture means are in substantial alignment along the major axis. 5. The feed assembly of claim 4, wherein the sidewall further comprises it front portion having a first substantially vertical panel portion disposed substantially parallel to the minor axis, which first substantially vertical panel portion further comprises the suction conduit aperture means in substantial alignment with the gas inlet aperture means in an opposing portion of the sidewall. 6. The feed assembly of claim 5, wherein the first substantially vertical panel section is substantially planar. 7. The feed assembly of claim 6, wherein the sidewall further comprises a rear portion opposed to the front portion, the rear portion having a second substantially vertical panel portion disposed substantially parallel to the minor axis, which second substantially vertical panel portion further comprises the gas inlet in substantial alignment with the suction conduit aperture means in the opposing first substantially vertical panel portion of the sidewall. 8. The feed assembly of claim 7, wherein the second substantially vertical panel section is substantially planar. 9. The feed assembly of claim 8, wherein the height of the second substantially vertical rear panel portion exceeds the height of adjacent sidewall portions of the end cap by between about 40% to about 120%. 10. The feed assembly of claim 9, wherein the gas inlet aperture is in substantial alignment with a gas return aperture in the housing. 11. The feed assembly of claim 10 wherein the ratio of the volume of the motor cap to the total volume of the shell means is between about 12% to about 18%. 12. The feed assembly of claim 11 wherein the ratio of the net flow volume of motor cap installed on the motor to the total volume of the shell means is between about 9% to about 15%. 13. A motor cap for a hermetic compressor unit, the motor cap comprising: a circumferential sidewall, the sidewall comprising suction conduit aperture and a gas inlet aperture, the suction conduit aperture being disposed opposite and in substantial alignment with the gas inlet aperture; a top wall disposed adjacent the sidewall and being configured to from a closed end, the top wall comprising protruding portions and recessed portions, the protruding portions and recessed portions being configured and disposed to control and direct the flow of suction gas within the motor cap to provide a substantially uninterrupted flow of suction gas between the gas inlet aperture and suction conduit aperture; an opening, the opening being disposed opposite the top wall and being adapted for subsequent mounting in substantial sealing contact with the unencumbered end of a motor; wherein the motor cap has a substantially cylindrical shape with a substantially straight sidewall, the motor cap having a substantial circular horizontal cross-sectional geometry defined by a major axis and a minor axis, the major axis dividing the motor cap in two hemispheres; wherein the top wall and the sidewall intersect to form an outwardly curved annular circumferential potion extending around the perimeter of the end cap; wherein the recessed portions of the wall comprise a recessed cylindrical portion centered at the intersection of the major and minor axis; wherein the protruding portions of the top wall comprise a raised bridge portion having a peak extending from the recessed cylindrical portion to the outwardly curved circumferential portion, the longitudinal axis of the peak in substantial alignment with the major axis; and wherein the suction conduit aperture, gas inlet aperture, and the peak are all located on one half hemisphere of the motor cap. 14. The motor cap of claim 13, wherein the raised bridge potion further comprises two annularly curved symmetric sloping portions originating at, and centered on, the longitudinal axis of the peak, each annularly curved symmetric sloping portion extending from the recessed cylindrical portion to the outwardly curved circumferential portion and extending from about 8 degrees to about 40 degrees around the outwardly curved circumferential perimeter as measured from the peak. 15. The motor cap of claim 14 wherein the suction conduit aperture means and the gas inlet aperture means are spaced apart a distance of from about one-third to one-half of the total maximum circumferential dimension of the sidewall. 16. The motor cap of claim 15, wherein the suction conduit aperture means and the gas inlet aperture means are in substantial alignment along the major axis. 17. The motor cap of claim 16, wherein the sidewall further comprises a front portion having a first substantially vertical panel portion disposed substantially parallel to the minor axis, which first substantially vertical panel portion further comprises the suction conduit aperture means in substantial alignment with the gas inlet aperture means in an opposing portion of the sidewall. 18. The motor cap of claim 17, wherein the first substantially vertical panel section is substantially planar. 19. The motor cap of claim 18, wherein the sidewall further comprises a rear portion opposed to the front portion, the rear portion having a second substantially vertical panel portion disposed substantially parallel to the minor axis, which second substantially vertical panel portion further comprises the gas inlet in substantial alignment with the suction conduit aperture means an the opposing first substantially vertical panel portion of the sidewall. 20. The motor cap of claim 19, wherein the second substantially vertical panel section is substantially planar. 21. The motor cup of claim 20, wherein the height of the second substantially vertical rear panel portion exceeds the height of the immediately adjacent sidewall by between about 40% to about 120%. 22. The motor cap of claim 21, wherein the gas inlet aperture is in substantial alignment with a gas return aperture in the housing. 23. The motor cap of claim 22 wherein the base area of the opening is between about 25 to about 40 square inches. 24. The motor cap of claim 23 wherein the volume of the motor cap is between about 45 to about 65 cubic inches.