Rotary compressor with cylinder immersed in oil
First Claim
1. A rotary compressor comprising:
- a closed casing comprising an oil reservoir;
a cylinder disposed inside the closed casing so as to be immersed in the oil reservoir;
a piston disposed inside the cylinder;
a bearing member disposed below the cylinder so as to form a cylinder chamber between the cylinder and the piston, the bearing member having a first principal surface that is in contact with the cylinder and a second principal surface that is opposite to the first principal surface;
a vane that partitions the cylinder chamber into a suction chamber and a discharge chamber;
a suction port through which a refrigerant to be compressed is introduced into the suction chamber;
a discharge port through which the compressed refrigerant is discharged from the discharge chamber, the discharge port being formed in the bearing member; and
a partition member attached to the second principal surface of the bearing member so as to form, together with the bearing member, a refrigerant discharge space that retains the refrigerant discharged from the discharge chamber through the discharge port,wherein when (i) a plane including a central axis of the cylinder and a center of the vane when the vane protrudes maximally toward the central axis of the cylinder is defined as a first reference plane, (ii) a plane including the central axis and perpendicular to the first reference plane is defined as a second reference plane, and (iii) four segments obtained by dividing the rotary compressor by the first reference plane and the second reference plane are defined as a first quadrant segment including the suction port, a second quadrant segment including the discharge port, a third quadrant segment opposite to the first quadrant segment and adjacent to the second quadrant segment, and a fourth quadrant segment opposite to the second quadrant segment and adjacent to the first quadrant segment, respectively,the refrigerant discharge space falls within a combined region consisting of a region corresponding to the first quadrant segment, a region corresponding to the second quadrant segment, and a region corresponding to the third quadrant segment,the second principal surface of the bearing member is in contact with an oil in the oil reservoir directly or via the partition member over an extended region defined by extending a region of the bearing member corresponding to the fourth quadrant segment circumferentially around the central axis to the refrigerant discharge space,a recess extending from the discharge port in both circumferential directions along an inner circumferential surface of the cylinder is formed in the second principal surface of the bearing member,the discharge port opens into the recess,the recess is closed by the partition member and thereby the refrigerant discharge space is formed,a thermal barrier layer including a metal of the bearing member is formed in the extended region of the bearing member, andthe thermal barrier layer has a constant thickness.
3 Assignments
0 Petitions
Accused Products
Abstract
A rotary compressor (100) includes a closed casing (1), a cylinder (15), a piston (28), a lower bearing member (7), a vane (33), a suction port, a discharge port (41), and a partition member (10). The partition member (10) is attached to a second principal surface (7a) of the lower bearing member (7) located on the opposite side to the cylinder (15) so as to form a refrigerant discharge space (52) serving as a flow path of a refrigerant discharged from a discharge chamber through the discharge port (41). The refrigerant discharge space (52) is limited so that a region where the refrigerant discharge space (52) is not present is formed on the same side as the suction port with respect to a first reference plane, and in that region, the second principal surface (7a) of the lower bearing member (7) is in contact with an oil in an oil reservoir (22) directly or via the partition member (10).
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Citations
7 Claims
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1. A rotary compressor comprising:
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a closed casing comprising an oil reservoir; a cylinder disposed inside the closed casing so as to be immersed in the oil reservoir; a piston disposed inside the cylinder; a bearing member disposed below the cylinder so as to form a cylinder chamber between the cylinder and the piston, the bearing member having a first principal surface that is in contact with the cylinder and a second principal surface that is opposite to the first principal surface; a vane that partitions the cylinder chamber into a suction chamber and a discharge chamber; a suction port through which a refrigerant to be compressed is introduced into the suction chamber; a discharge port through which the compressed refrigerant is discharged from the discharge chamber, the discharge port being formed in the bearing member; and a partition member attached to the second principal surface of the bearing member so as to form, together with the bearing member, a refrigerant discharge space that retains the refrigerant discharged from the discharge chamber through the discharge port, wherein when (i) a plane including a central axis of the cylinder and a center of the vane when the vane protrudes maximally toward the central axis of the cylinder is defined as a first reference plane, (ii) a plane including the central axis and perpendicular to the first reference plane is defined as a second reference plane, and (iii) four segments obtained by dividing the rotary compressor by the first reference plane and the second reference plane are defined as a first quadrant segment including the suction port, a second quadrant segment including the discharge port, a third quadrant segment opposite to the first quadrant segment and adjacent to the second quadrant segment, and a fourth quadrant segment opposite to the second quadrant segment and adjacent to the first quadrant segment, respectively, the refrigerant discharge space falls within a combined region consisting of a region corresponding to the first quadrant segment, a region corresponding to the second quadrant segment, and a region corresponding to the third quadrant segment, the second principal surface of the bearing member is in contact with an oil in the oil reservoir directly or via the partition member over an extended region defined by extending a region of the bearing member corresponding to the fourth quadrant segment circumferentially around the central axis to the refrigerant discharge space, a recess extending from the discharge port in both circumferential directions along an inner circumferential surface of the cylinder is formed in the second principal surface of the bearing member, the discharge port opens into the recess, the recess is closed by the partition member and thereby the refrigerant discharge space is formed, a thermal barrier layer including a metal of the bearing member is formed in the extended region of the bearing member, and the thermal barrier layer has a constant thickness. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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Specification