| CPC F04C 18/0276 (2013.01) [F04C 18/0215 (2013.01); F04C 18/0253 (2013.01); F04C 18/0261 (2013.01); F04C 18/0284 (2013.01); F04C 29/12 (2013.01); F04C 2240/10 (2013.01); F04C 2240/20 (2013.01); F04C 2250/301 (2013.01)] | 3 Claims |
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1. A scroll compressor comprising:
a stationary scroll including a spiral wall portion erected on one side surface of an end plate;
an orbiting scroll that includes a spiral wall portion erected on one side surface of an end plate and is supported so as to perform orbital revolution movement while being prevented from self-rotation by the respective spiral wall portions being engaged with each other; and
a discharge port through which compressed fluid is discharged;
a single end-plate side stepped portion being provided on a one side surface of the end plate of the orbiting scroll, the single end-plate side stepped portion being formed so that, along the spiral wall portion of the one of the orbiting scroll, a height of the single end-plate side stepped portion increases toward a central side of the spiral wall portion of the orbiting scroll and decreases toward an outer end side of the spiral wall portion of the one of the orbiting scroll;
a single wall-portion side stepped portion being provided on the spiral wall portion of the stationary scroll, the single wall-portion side stepped portion being formed corresponding to the single end-plate side stepped portion of the orbiting scroll so that a height of the single wall-portion side stepped portion decreases toward the central side of the spiral wall portion of the stationary scroll and increases toward the outer end side of the spiral wall portion of the stationary scroll, the single wall-portion side stepped portion corresponding to the single end-plate side stepped portion;
a pair of compression chambers including a first compression chamber and a second compression chamber being formed between the stationary scroll and the orbiting scroll during a portion of a cycle of the orbital revolution movement after intake has ended, a capacity change rate of the first compression chamber is made different from a capacity change rate of the second compression chamber by the single end-plate side stepped portion and the single wall-portion side stepped portion during the portion of the cycle of the orbital revolution movement so that pressure in the first compression chamber is made higher than pressure in the second compression chamber at a swivel angle at which the fluid is discharged;
a first extraction port that is provided to communicate with the first compression chamber and discharges a fluid with a pressure equal to or greater than a predetermined pressure before the fluid being discharged through the discharge port; and
a second extraction port that is provided to communicate with the second compression chamber and discharges a fluid with a pressure equal to or greater than a predetermined pressure before the fluid being discharged through the discharge port,
wherein during the portion of the cycle of the orbital revolution movement after the intake has ended, the first compression chamber in which the pressure is made higher communicates with the first extraction port before the second compression chamber in which the pressure is made lower communicates with the second extraction port.
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2. A scroll compressor comprising:
a stationary scroll including a spiral wall portion erected on one side surface of an end plate;
an orbiting scroll that includes a spiral wall portion erected on one side surface of an end plate and is supported so as to perform orbital revolution movement while being prevented from self-rotation by the respective spiral wall portions being engaged with each other; and
a discharge port through which compressed fluid is discharged;
an end-plate side stepped portion being provided on a one side surface of the end plate of each of the stationary scroll and the orbiting scroll, the end-plate side stepped portion being formed so that, along the spiral wall portion of each of the stationary scroll and the orbiting scroll, a height of the end-plate side stepped portion increases toward a central side of the spiral wall portion of each of the stationary scroll and the orbiting scroll and decreases toward an outer end side of the spiral wall portion of each of the stationary scroll and the orbiting scroll;
a wall-portion side stepped portion being provided on the spiral wall portion of each of the stationary scroll and the orbiting scroll, the wall-portion side stepped portion for the stationary scroll being formed corresponding to the end-plate side stepped portion for the orbiting scroll so that a height of the wall-portion side stepped portion for the stationary scroll decreases toward the central side of the spiral wall portion of the stationary scroll and increases toward the outer end side of the spiral wall portion of the stationary scroll, and the wall-portion side stepped portion for the orbiting scroll being formed corresponding to the end-plate side stepped portion for the stationary scroll so that a height of the wall-portion side stepped portion for the orbiting scroll decreases toward the central side of the spiral wall portion of the orbiting scroll and increases toward the outer end side of the spiral wall portion of the orbiting scroll;
the height of the end-plate side stepped portion of one of the stationary scroll or the orbiting scroll being higher than the height of the end-plate side stepped portion of the other of the stationary scroll or the orbiting scroll;
a pair of compression chambers including a first compression chamber and a second compression chamber being formed between the stationary scroll and the orbiting scroll during a portion of a cycle of the orbital revolution movement after intake has ended, a capacity change rate of the first compression chamber is made different from a capacity change rate of the second compression chamber by the end-plate side stepped portion and the wall side stepped portion during the portion of the cycle of the orbital revolution movement so that pressure in the first compression chamber is made higher from pressure in the second compression chamber at a swivel angle at which the fluid is discharged;
a first extraction port that is provided to communicate with the first compression chamber and discharges a fluid with a pressure equal to or greater than a predetermined pressure before the fluid being discharged through the discharge port; and
a second extraction port that is provided to communicate with the second compression chamber and discharges a fluid with a pressure equal to or greater than a predetermined pressure before the fluid being discharged through the discharge port;
wherein during the portion of the cycle of the orbital revolution movement after the intake has ended, the first compression chamber in which the pressure is made higher communicates with the first extraction port before the second compression chamber in which the pressure is made lower communicates with the second extraction port.
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3. A scroll compressor comprising:
a stationary scroll including a spiral wall portion erected on one side surface of an end plate;
an orbiting scroll that includes a spiral wall portion erected on one side surface of an end plate and is supported so as to perform orbital revolution movement while being prevented from self-rotation by the respective spiral wall portions being engaged with each other; and
a discharge port through which compressed fluid is discharged;
a single end-plate side stepped portion being provided on a one side surface of the end plate of the stationary scroll, the single end-plate side stepped portion being formed so that, along the spiral wall portion of the stationary scroll, a height of the single end-plate side stepped portion increases toward a central side of the spiral wall portion of the stationary scroll and decreases toward an outer end side of the spiral wall portion of the stationary scroll;
a single wall-portion side stepped portion being provided on the spiral wall portion of the orbiting scroll, the single wall-portion side stepped portion being formed corresponding to the single end-plate side stepped portion of the stationary scroll so that a height of the single wall-portion side stepped portion decreases toward the central side of the spiral wall portion of the orbiting scroll and increases toward the outer end side of the spiral wall portion of the orbiting scroll, the single wall-portion side stepped portion corresponding to the single end-plate side stepped portion;
a pair of compression chambers including a first compression chamber and a second compression chamber being formed between the stationary scroll and the orbiting scroll during a portion of a cycle of the orbital revolution movement after intake has ended, a capacity change rate of the first compression chamber is made different from a capacity change rate of the second compression chamber by the single end-plate side stepped portion and the single wall-portion side stepped portion during the portion of the cycle of the orbital revolution movement so that pressure in the second compression chamber is made higher than pressure in the first compression chamber at a swivel angle at which the fluid is discharged;
a first extraction port that is provided to communicate with the first compression chamber and discharges a fluid with a pressure equal to or greater than a predetermined pressure before the fluid being discharged through the discharge port; and
a second extraction port that is provided to communicate with the second compression chamber and discharges a fluid with a pressure equal to or greater than a predetermined pressure before the fluid being discharged through the discharge port,
wherein during the portion of the cycle of the orbital revolution movement after the intake has ended, the second compression chamber in which the pressure is made higher communicates with the second extraction port before the first compression chamber in which the pressure is made lower communicates with the first extraction port.
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