TH23992B - Seals eccentric back pressure chamber for coiled compactors. - Google Patents

Abstract

DC60 (12/03/44) Coiled compactor is integrated to seal the compression chamber. Which was installed eccentrically by Relative to the spindle of the shaft Due to misalignment of the seal Back pressure chamber, which helps prevent Break out of the fixed coil And the orbit also performs an eccentricity function. The force of the pressure chamber is back eccentric. Causing a moment to turn upside down The direction of misalignment is selected so that this inverted moment opposes the curl moment. The secondary gas forces are maintained, so the back pressure chamber force and the axial force between the non-orbital coils and Orbit, which is reduced, and the back pressure area between the seals is reduced by reducing the axial force, thereby reducing Helical wear and reduced friction Where by reducing the space of the room, the increased space in the environment The enclosures of the coil are free which can be used for other purposes. The coiled compactor is integrated to seal the compression chamber. Which was installed eccentrically by Relative to the spindle of the shaft Due to misalignment of the seal Back pressure chamber, which helps prevent Break out of the fixed coil And the orbit also performs an eccentricity function. The force of the pressure chamber is back eccentric. Causing a moment to turn upside down The direction of misalignment is selected so that this inverted moment, the helical moment side The secondary gas forces are maintained, so the back pressure chamber force and the axial force between the non-orbital coils and Orbit, which is reduced, and the back pressure area between the seals is reduced by reducing the axial force, thereby reducing Helical wear and reduced friction Where by reducing the space of the room, the increased space in the environment The enclosures of the coil are free which can be used for other purposes.

Claims (5)

1. A volute refrigeration gas compressor consisting of The first spiral element with the base plate and the spiral wrap part. In general, protruding from the said base plate. The second spiral piece with the base plate and the spiral wrap part. In general, protruding from the said base plate. The aforementioned volute wrapper of the bottom part. The first and second shells fit together to determine the extent of the compressed gas chamber. The back pressure chamber is set on one side of the base plate. Of the first and second spiral parts, which are separated from One piece and another second shell piece. The second of the aforementioned spirals that traveled along the shell. The one said and was driven by the shaft Which the shaft that the pins protruding through the hole The axis in the second spiral element to allow the drive unit to rotate. The second orbiting spiral fragment. The shaft defines the boundary of the spindle, and the back pressure chamber is offset from that axis, with a relatively constant cross-sectional area that does not change while the part. The second spiral is moving orbiting. 2. The volute refrigerant compressor according to claim 1, where the chamber The back pressure is bounded by a pair of shrouds that one shroud has. The distance entering from another covering element radially And such covering parts At least one of the parts was installed eccentrically from the axis. 3. Volute refrigerant compressor according to claim 2, where the bottom part was The second shell was placed in the crankcase and the back pressure chamber was limited. The boundary shall be between the aforementioned crankcase and the second part of the volute. 4. Spiral refrigerant gas compressor according to claim 3, where the part is covered. The first and second closures were installed in the aforementioned crankcase. The first spiral element with the base plate and the spiral wrap part. Generally protruding from the said base plate. The second spiral piece with the base plate and the spiral wrap part. Generally protruding from the said base plate. The aforementioned volute wrapper of the bottom part. The first and second shells fit together to determine the extent of the compressed gas chamber. The back pressure chamber is set on one side of the base plate. Of the first and second spiral parts, which are separated from The first and the second spiral fragments. The second one of the spirals that travels along the spiral fragment. The one said and was driven by the shaft The shaft defines the spindle, the back pressure chamber is offset from that axis. The back pressure chamber was confined by a shroud. A pair where one enclosure is radially spaced inward from the other, and at least one of such enclosures is installed eccentrically from the axis and part. One inner shroud is installed eccentrically and one outer casing is centered on such an axis. The first spiral element with the base plate and the spiral wrap part. Generally protruding from the said base plate. The second spiral piece with the base plate and the spiral wrap part. Generally protruding from the said base plate. The aforementioned volute wrapper of the bottom part. The first and second shells fit together to determine the extent of the compressed gas chamber. The back pressure chamber is set on one side of the base plate. Of the first and second spiral parts, which are separated from The first and the second spiral fragments. The second one of the spirals that travels along the spiral fragment. The one said and was driven by the shaft The shaft defines the spindle boundary, the back pressure chamber is centered from that axis. The back pressure chamber was confined by a shroud. A pair where at least one of the enclosures is radially spaced inward from the other, and at least one such enclosure is installed off-center from that axis and the part. One of the inner shrouds is installed eccentric to the axes and one outer covering is centrally located on the axle.7. Spiral refrigerant gas compressor according to claim 1, where Room The back pressure is bounded by a shroud, which is installed eccentrically from the axle. The first spiral piece with the base plate and the spiral wrap piece. Generally protruding from the said base plate. The second spiral piece with the base plate and the spiral wrap part. Generally protruding from the said base plate. The aforementioned volute wrapper of the bottom part. The first and second shells fit together to determine the extent of the compressed gas chamber. The back pressure chamber is set on one side of the base plate. Of the first and second spiral parts, which are separated from Another one and a second spiral piece. The second one of the spirals that travels along the spiral fragment. The one said and was driven by the shaft The shaft defines the spindle, the back pressure chamber is offset from that axis. The back pressure chamber was confined by a shroud. A pair where one enclosure is radially spaced inward from the other, and at least one such enclosure is installed eccentrically from that axis and the pressure chamber. Such counter-turn is perpendicular in one direction. Which direction one They were chosen to have the greatest benefit in the resistance of the reverse forces arising from the The gas rotation force touches the loop when it is close to its maximum during a cycle. Of the volute refrigerant gas compressor. 9. A volute refrigeration gas compressor that consists of The first spiral piece with the base and the spiral wrap part. In general, filed from the base. A second spiral piece with a base and a typical spiral wrapper. Extended from the base The spiral shroud of the first spiral element. And the second they wear together to determine the scope of the compressed gas chamber. And gas compressors do The spiral cooling force acts by the gas touching the loop acting on the part. Such spiral The second piece of the mollusk was moving along the spiral fragment. The one said And the shaft to drive the second spiral element, and the center line of the shaft limits the spindle boundary. The back pressure chamber is limited behind the component's base plate. The first and the aforementioned spirals, either separated from the first and second spiral parts. And the second one The back pressure chamber has a surface that is offset to that axis and is designed to create the limiting force of the reverse pressure chamber at least. The most part will resist the reverse rotation of the gas force touching it. Back pressure chamber It is perpendicular to one direction. The first such direction is generally chosen to be parallel. With the direction of the limiting force of the gas force touching the resistance loop during a cycle of The aforementioned volute refrigerant gas compressor 1 0. volute refrigerant gas compressor according to claim 9, where the pressure chamber The back pressure is bounded by a pair of shrouds that one shroud has. The distance entering from another covering element radially And such covering parts At least one of the parts was installed off-center from the axis 1. 1. Spiral refrigerant gas compressor according to claim 10 where parts The second above is placed in the crankcase. And the back pressure chamber was The boundary is between the crankcase and the second hanging bottom part 1. 2. Spiral refrigerant gas compressor according to claim 11, where parts The first and second covers were installed in the crankcase 1. 3. Spiral refrigerant gas compressor according to claim 12 where parts One of the inner covers was installed in a concentric manner. And outer covering parts One is located at the center on that axis 1. 4. Spiral refrigerant gas compressor according to claim 10, where parts One of the inner covers is installed in a concentric manner with the axes. And cladding parts One of the outer covers is installed eccentric to the axis 1. 5. Spiral refrigerant gas compressor according to claim 9, where the cooling chamber The back pressure was bounded by a shroud, which was installed eccentrically from the axis.