Rubber composition manufacturing method and tire manufacturing method

The invention claimed is: 1 . A rubber composition manufacturing method comprising an operation in which an intermeshing internal kneader equipped with a casing, at least two rotors which are capable of rotating within the casing, a neck portion which is located above the rotors, and a ram which is capable of moving vertically in a space within the neck portion is used to knead at least rubber, silica, and silane coupling agent, wherein the operation comprises a first step in which kneading which is accompanied by increase in kneading temperature is carried out during an initial phase of the operation; the operation comprises a second step in which, after the first step, kneading is carried out while the kneading temperature is controlled so as to suppress occurrence of a coupling reaction between the silica and the silane coupling agent, rotational speeds of the rotors being controlled by means of PID control to cause the kneading temperature to be a target temperature at the second step; the target temperature is not less than 100° C. but less than 140° C., kneading is carried out during the first step while the ram is maintained in a state in which it is at a first position which is higher than a lowermost position within a range of movement of which the ram is capable; and a volume of space which is enclosed by the ram and the casing when the ram is at the lowermost position to be a first effective volume, and a volume of space which is enclosed by the ram and the casing when the ram is at the first position to be a second effective volume, the second effective volume is 105% to 120% relative to a value of 100% for the first effective volume during the first step. 2 . The rubber composition manufacturing method according to claim 1 wherein during the second step as well, kneading is carried out while the ram is maintained in a state in which it is at the first position; and during the second step as well, the second effective volume is 105% to 120% relative to a value of 100% for the first effective volume. 3 . The rubber composition manufacturing method according to claim 1 wherein the ram is moved up and down during a transition from the first step to the second step. 4 . The rubber composition manufacturing method according to claim 1 wherein the operation comprises a third step in which, after the second step, kneading which is accompanied by a further increase in kneading temperature is carried out. 5 . The rubber composition manufacturing method according to claim 4 wherein the operation comprises a fourth step in which, after the third step, kneading is carried out while kneading temperature is controlled so as to cause the coupling reaction to proceed. 6 . The rubber composition manufacturing method according to claim 5 wherein, at the fourth step, rotational speeds of the rotors are controlled by means of PID control to cause the kneading temperature to be a target temperature. 7 . The rubber composition manufacturing method according to claim 5 wherein, at the fourth step, kneading is carried out while the ram is maintained in a state in which it is at the first position. 8 . The rubber composition manufacturing method according to claim 5 wherein, from the first step to the fourth step, neither the rubber, nor the silica, nor the silane coupling agent is discharged from the intermeshing internal kneader. 9 . The rubber composition manufacturing method according to claim 1 wherein, during the operation, at least the rubber, the silica, the silane coupling agent, and carbon black are kneaded. 10 . The rubber composition manufacturing method according to claim 1 wherein, during the first step, the silica is present in an amount that is 10 parts per mass to 120 parts per mass per 100 parts per mass of the rubber. 11 . A tire manufacturing method comprising: an operation in which the rubber composition manufacturing method according to claim 1 is used to prepare the rubber composition; and an operation in which the rubber composition is used to fabricate an unvulcanized tire. 12 . The tire manufacturing method according to claim 11 wherein, during the operation in which the unvulcanized tire is fabricated, the unvulcanized tire which is fabricated is equipped with a tire member comprising the rubber composition. 13 . The tire manufacturing method according to claim 12 wherein the tire member is tread rubber. 14 . The rubber composition manufacturing method according to claim 1 wherein the target temperature is not less than 115° C. but not greater than 138° C. 15 . The rubber composition manufacturing method according to claim 6 wherein the target temperature of the fourth step is not less than 145° C. but not greater than 165° C.