Fuel supply apparatus

What is claimed is: 1. A fuel supply apparatus to supply fuel from a fuel tank to an internal combustion engine, comprising: a pump to discharge fuel in the fuel tank; a return passage branched from a fuel passage, which is connected to the pump, and to return a part of fuel discharged from the pump to the fuel tank; and a valve device to control a flow rate in the return passage, wherein the valve device has: a housing; an inner passage provided in the housing and to communicate with both the fuel passage and an inside of the fuel tank; a valve body provided in the inner passage and movable in the housing to change a minimum flow passage cross-sectional area of the inner passage; and a spring connected to the valve body and to change its biasing load in correspondence with a fuel temperature of the fuel to move the valve body, the spring is to move the valve body such that the minimum flow passage cross-sectional area, when the fuel temperature of the fuel discharged with the pump is equal to or higher than a predetermined vapor generation temperature, is larger than the minimum flow passage cross-sectional area when the fuel temperature is lower than the vapor generation temperature, and the inner passage includes: a first flow passage to communicate the fuel passage with the inside of the fuel tank regardless of the fuel temperature; and a second flow passage to be blocked with the valve body when the fuel temperature is lower than the vapor generation temperature and not to be blocked with the valve body when the fuel temperature is equal to or higher than the vapor generation temperature. 2. The fuel supply apparatus according to claim 1 , wherein the housing has an outflow, which is to allow the fuel to flow therefrom, including a first outflow and a second outflow which are different from each other, the first flow passage includes the first outflow, the second flow passage includes the second outflow, and the second outflow is to be blocked with the valve body, when the fuel temperature is lower than the vapor generation temperature, and is not to be blocked with the valve body when the fuel temperature is equal to or higher than the vapor generation temperature. 3. The fuel supply apparatus according to claim 2 , wherein the housing further has a valve body facing part surrounding the second outflow and facing the valve body, the second outflow is to be blocked when the valve body makes contact with the valve body facing part, the valve body facing part is formed in a tapered shape in which the closer to the valve body, the larger an opening cross-sectional area of the valve body facing part, and the valve body includes a blockage end partially to make contact with the valve body facing part and having a spherical external shape. 4. The fuel supply apparatus according to claim 2 , wherein a virtual line, which connects an inflow of the housing for the fuel with the second outflow, passes through a center of the housing, the valve device has: a partition to partition the inside of the housing into an inflow side region and an outflow side region of the fuel; and a blockage protrusion protruding from a center of the partition in a direction from the inflow toward the second outflow and to block the second outflow, the partition has one or more first through holes around the blockage protrusion and to communicate the inflow side region with the outlet side region, both of the first flow passage and the second flow passage include the first through hole, and the spring is a coil spring having a central axis which is the virtual line. 5. The fuel supply apparatus according to claim 1 , wherein the housing has an outflow, which is to allow the fuel to flow therefrom, and a valve body facing part which surrounds the outflow and faces the valve body, a gap is formed between the valve body and the valve body facing part, regardless of whether or not the fuel temperature is higher than the vapor generation temperature, the gap is to change in size in correspondence with movement of the valve body, a minimum cross-sectional area of the gap when the fuel temperature is lower than the vapor generation temperature is smaller than a minimum cross-sectional area of the outflow, and the minimum cross-sectional area of the gap when the fuel temperature is equal to or higher than the vapor generation temperature is equal to or larger than the minimum cross-sectional area of the outflow. 6. The fuel supply apparatus according to claim 1 , wherein the vapor generation temperature is predetermined at a temperature at which fuel vapor occurs in the fuel tank. 7. The fuel supply apparatus according to claim 1 , wherein the spring is configured to move the valve body to increase the minimum flow passage cross-sectional area in response to increase in the fuel temperature to be equal to or higher than the vapor generation temperature. 8. A fuel supply apparatus to supply fuel from a fuel tank to an internal combustion engine, comprising: a pump to discharge fuel in the fuel tank; a return passage branched from a fuel passage, which is connected to the pump, and to return a part of fuel discharged from the pump to the fuel tank; and a valve device to control a flow rate in the return passage, wherein the valve device has: a housing; an inner passage provided in the housing and to communicate with both the fuel passage and an inside of the fuel tank; a valve body provided in the inner passage and movable in the housing to change a minimum flow passage cross-sectional area of the inner passage; and a spring connected to the valve body and to change its biasing load in correspondence with a fuel temperature of the fuel to move the valve body, and the spring is to move the valve body such that the minimum flow passage cross-sectional area, when the fuel temperature of the fuel discharged with the pump is equal to or higher than a predetermined vapor generation temperature, is larger than the minimum flow passage cross-sectional area when the fuel temperature is lower than the vapor generation temperature, the inner passage includes: a low-temperature flow passage to allow the fuel to flow therethrough when the fuel temperature is lower than the vapor generation temperature; and a high-temperature flow passage to allow the fuel to flow therethrough when the fuel temperature is equal to or higher than the vapor generation temperature, the housing has a third outflow from which the fuel is to flow, the valve body is to block the high-temperature flow passage when the fuel temperature is lower than the vapor generation temperature, the valve body has: a recess to surround an opening of an end of the third outflow, which is in an inner wall surface of the housing, upon blockage of the high-temperature flow passage; and a second through hole being a through hole inside the valve body and having one end, which is exposed to the recess, and an other end, which is exposed to the inside of the housing, the low-temperature flow passage includes the third outflow and the second through hole, the high-temperature flow passage excludes the second through hole and includes: the third outflow; and a gap between a blockage end of the recess and the inner wall surface of the housing, the blockage end being to make contact with the inner wall surface of the housing when blocking the high-temperature flow passage, the minimum flow passage cross-sectional area in the low-temperature flow passage is a cross-sectional area of the second through hole, the minimum flow passage cross-sectional area in the high-temperature flow passage is a cross-sectional area of the third outflow or a cross-sectional area of the