Injection molding apparatus

What is claimed is: 1. An injection molding apparatus configured to perform molding using different materials, the apparatus comprising: a first upstream mold having a first gate opening formed therein into which a first molding material flows; a second upstream mold having a second gate opening formed therein into which a second molding material flows; a first injection unit that injects the first molding material through the first gate opening; a second injection unit that injects the second molding material through the second gate opening; and a downstream mold configured to be clamped with each of the first upstream mold and the second upstream mold, wherein the second molding material is injected by the second injection unit after the first molding material is injected by the first injection unit, the second gate opening is formed at a position separated further from the downstream mold than the first gate opening, and a volume of a second cavity partitioned by the second upstream mold and the downstream mold in a mold clamped state is larger than a volume of a first cavity partitioned by the first upstream mold and the downstream mold in the mold clamped state. 2. The injection molding apparatus according to claim 1 , wherein a position facing the first gate opening when the downstream mold is clamped with the first upstream mold and a position facing the second gate opening when the downstream mold is clamped with the second upstream mold are equal to each other. 3. The injection molding apparatus according to claim 1 , wherein the first injection unit includes a first nozzle disposed inside the first upstream mold to guide the first molding material to the first gate opening, the second injection unit includes a second nozzle disposed inside the second upstream mold to guide the second molding material to the second gate opening, the first nozzle has a first heater that heats the first molding material, and the second nozzle has a second heater that heats the second molding material. 4. The injection molding apparatus according to claim 1 , wherein the downstream mold includes a first downstream mold and a second downstream mold configured to be clamped with the first upstream mold and the second upstream mold, respectively. 5. The injection molding apparatus according to claim 1 , further comprising: a position changing mechanism that changes a relative position between the first upstream mold or the second upstream mold and the downstream mold in a direction intersecting an injection direction in which the first molding material or the second molding material is injected and causes the downstream mold to face the first upstream mold or the second upstream mold, wherein the position changing mechanism includes a rotary plate which has a rotational axis that is parallel to the injection direction and on which the downstream mold is disposed, and rotates the rotary plate about the rotational axis. 6. The injection molding apparatus according to claim 1 , further comprising: a mold clamping mechanism that changes a relative position between the first upstream mold or the second upstream mold and the downstream mold in an injection direction in which the first molding material or the second molding material is injected, and performs mold clamping between the first upstream mold or the second upstream mold and the downstream mold, wherein the mold clamping mechanism has a movable plate on which the first upstream mold and the second upstream mold are disposed and moves the movable plate along the injection direction. 7. The injection molding apparatus according to claim 1 , wherein an area of the second gate opening is larger than an area of the first gate opening. 8. The injection molding apparatus according to claim 1 , wherein the first injection unit has a first flat screw that melts a material by rotation to produce the first molding material, and the second injection unit has a second flat screw that melts a material by rotation to produce the second molding material.