Oil pump

What is claimed is: 1. An oil pump comprising: a rotor that is driven to be rotated; an outer peripheral member that has a generally cylindrical shape and that accommodates the rotor; a first plate disposed so as to cover an opening at one end face of the outer peripheral member having the generally cylindrical shape; and a second plate disposed so as to cover an opening at the other end face of the outer peripheral member having the generally cylindrical shape, wherein a clearance is defined between an outer peripheral face of the rotor and an inner peripheral face of the outer peripheral member, the clearance is partitioned into a plurality of transfer chambers arranged in a circumferential direction of the rotor, a volume of each of the transfer chambers gradually changes as the rotor rotates, suction ports in the form of recesses are respectively formed in a face of the first plate and a face of the second plate, the faces being opposed to the transfer chambers, the suction ports including at least part of a region in which the volume of each of the transfer chambers gradually increases, and the suction port of the first plate and the suction port of the second plate being formed at such positions as to be opposed to each other, discharge ports in the form of recesses are respectively formed in the face of the first plate and the face of the second plate, the faces being opposed to the transfer chambers, the discharge ports including at least part of a region in which the volume of each of the transfer chambers gradually decreases, and the discharge port of the first plate and the discharge port of the second plate being formed at such positions as to be opposed to each other, a discharge passage through which hydraulic fluid is discharged is connected to the discharge port of the first plate, and the discharge port of the second plate is connected to the discharge passage via the transfer chamber that has reached the discharge port of the second plate and the discharge port of the first plate, a first pressure gradually-changing groove and a second pressure gradually-changing groove are formed respectively in the first plate and the second plate so as to extend from the discharge ports toward the suction ports, the first and second pressure gradually-changing grooves being formed in a sealed region through which the transfer chamber that has reached end points of the suction ports passes before reaching start points of the discharge ports, the first and second pressure gradually-changing grooves gradually supplying the hydraulic fluid from the discharge ports to the transfer chamber that is passing through the sealed region, and the first pressure gradually-changing groove and the second pressure gradually-changing groove are formed such that a second flow passage area is larger than a first flow passage area, the first flow passage area being a flow passage area of the first pressure gradually-changing groove of the first plate, at a position at which the first pressure gradually-changing groove is communicated with the transfer chamber that is passing through the sealed region, and the second flow passage area being a flow passage area of the second pressure gradually-changing groove of the second plate, at a position at which the second pressure gradually-changing groove is communicated with the transfer chamber that is passing through the sealed region. 2. The oil pump according to claim 1 , wherein the second flow passage area is made larger than the first flow passage area by setting the number of the second pressure gradually-changing grooves of the second plate larger than the number of the first pressure gradually-changing grooves of the first plate. 3. The oil pump according to claim 1 , wherein a ratio of the second flow passage area to the first flow passage area is set such that a pressure of the hydraulic fluid flowing from the first pressure gradually-changing groove into the transfer chamber that is passing through the sealed region and a pressure of the hydraulic fluid flowing from the second pressure gradually-changing groove into the transfer chamber that is passing through the sealed region are equal to each other. 4. The oil pump according to claim 2 , wherein a ratio of the second flow passage area to the first flow passage area is set such that a pressure of the hydraulic fluid flowing from the first pressure gradually-changing groove into the transfer chamber that is passing through the sealed region and a pressure of the hydraulic fluid flowing from the second pressure gradually-changing groove into the transfer chamber that is passing through the sealed region are equal to each other. 5. The oil pump according to claim 1 , wherein the first flow passage area is a flow passage area of the first pressure gradually-changing groove of the first plate at a position at which the first pressure gradually-changing groove is initially communicated with the transfer chamber that is passing through the sealed region, and the second flow passage area is a flow passage area of the second pressure gradually-changing groove of the second plate at a position at which the second pressure gradually-changing groove is initially communicated with the transfer chamber that is passing through the sealed region.