| CPC F04C 2/025 (2013.01) [F04C 2240/30 (2013.01)] | 6 Claims |
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1. A scroll compressor, comprising:
a housing including a suction chamber configured to draw in fluid;
a rotary shaft rotationally supported by the housing;
a fixed scroll fixed to the housing;
a movable scroll configured to orbit about a rotation axis of the rotary shaft as the rotary shaft rotates;
an opposed wall located on an opposite side of the movable scroll from the fixed scroll and opposed to the movable scroll; and
an annular plate arranged between the movable scroll and the opposed wall, wherein
the fixed scroll includes:
a fixed base plate;
a fixed volute wall that extends from the fixed base plate; and
a cylindrical fixed outer circumferential wall that extends from the fixed base plate and surrounds the fixed volute wall,
the movable scroll includes:
a movable base plate opposed to the fixed base plate; and
a movable volute wall that extends from the movable base plate toward the fixed base plate and meshes with the fixed volute wall,
the movable scroll is arranged on an inner side of the fixed outer circumferential wall,
the opposed wall includes:
an opposed surface opposed to the plate;
an annular back-pressure-chamber-defining recess that is recessed from the opposed surface; and
a back-pressure supplying groove that is recessed from the opposed surface,
the plate includes a discharge hole that extends through the plate,
the fixed outer circumferential wall, the movable scroll, and the plate define a suction pressure space configured such that the fluid flows from the suction chamber into the suction pressure space,
the movable scroll and the opposed wall define a first back-pressure space,
the plate and the back-pressure-chamber-defining recess define a second back-pressure space,
the first back-pressure space and the second back-pressure space define a back-pressure chamber configured such that the fluid is drawn into the back-pressure chamber to urge the movable scroll toward the fixed scroll,
the back-pressure supplying groove is configured to connect the first back-pressure space to the second back-pressure space, thereby supplying the fluid from the first back-pressure space to the second back-pressure space,
the discharge hole is configured to connect the second back-pressure space to the suction pressure space, thereby discharging the fluid from the second back-pressure space to the suction pressure space, and
at least part of the discharge hole is overlapped with the back-pressure supplying groove in an axial direction of the rotary shaft.
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