Train wireless system and train length calculation method

The invention claimed is: 1. A train wireless system comprising: a train detecting apparatus installed on a ground; and an on-board control apparatus mounted on a train, wherein: the train detecting apparatus includes at least one processor that: detects that the train is on rails in a block that is a section of the rails having a track circuit; and controls measurement of an on-rail time during which the train is detected in the block, and calculation and transmission, to the train, of an on-rail detecting time during which the train has been on the rails in the block, and the on-board control apparatus includes at least another processor that: measures a travelling distance of the train from a beginning end of the block, wherein the travelling distance is measured when, after a position-determination track antenna beacon is detected by a pickup coil, the train travels a distance obtained by subtracting a distance from the pickup coil to an axle of the train from a distance from the position-determination track antenna beacon to the beginning end of the block, the axle short-circuiting the track circuit first in the train; measures an elapsed time since the measurement of the traveling distance is started; records the elapsed time and the traveling distance in a memory in association with each other; and searches recorded elapsed times on a basis of the on-rail detecting time acquired from the train detecting apparatus, and calculates a train length using an accordingly selected travelling distance. 2. The train wireless system according to claim 1 , wherein recorded elapsed times include elapsed times that meet a condition that the elapsed times are equal to or greater than the on-rail detecting time, and the on-board control apparatus selects a shortest one of travelling distances recorded with the elapsed times that meet the condition. 3. The train wireless system according to claim 1 , wherein the on-board control apparatus takes, as the train length, a value obtained by subtracting a known length of the block from the selected travel distance, and adding an extra length thereto. 4. The train wireless system according to claim 3 , wherein the extra length is a sum of a distance from a front end of the train to an axle of the train that short-circuits the track circuit first in the train, and a distance from a rear end of the train to an axle of the train that has short-circuited the track circuit last in the train. 5. The train wireless system according to claim 1 , wherein when a delay time is set in determination of whether the train is on the rails in the block, the train detecting apparatus takes, as the on-rail detecting time, a value obtained by subtracting the delay time from the on-rail time. 6. The train wireless system according to claim 1 , wherein the train detecting apparatus controls the transmission of the on-rail detecting time via a train wireless base station that performs communication using a licensed frequency band in a train wireless system, and in the train, a licensed-frequency-band on-board wireless station receives the on-rail detecting time through communication using the licensed frequency band, and outputs the on-rail detecting time to the on-board control apparatus. 7. The train wireless system according to claim 1 , wherein the train detecting apparatus controls the transmission of the on-rail detecting time via a public wireless network base station that performs communication using a public wireless network, and in the train, an on-board public wireless network apparatus receives the on-rail detecting time through communication using the public wireless network, and outputs the on-rail detecting time to the on-board control apparatus. 8. A train-length calculation method in a train wireless system comprising a train detecting apparatus installed on a ground and an on-board control apparatus mounted on a train, the method comprising: measuring, via at least an input unit and at least one processor of the on-board control apparatus, a travelling distance of the train from a beginning end of a block that is a section of the rails having a track circuit, and measuring an elapsed time since the measurement of the traveling distance is started, wherein measuring the travelling distance and the elapsed time comprises measuring the travelling distance and the elapsed time when, after a position-determination track antenna beacon is detected by a pickup coil, the train travels a distance obtained by subtracting a distance from the pickup coil to an axle of the train from a distance from the position-determination track antenna beacon to the beginning end of the block, the axle short-circuiting the track circuit first in the train; recording the elapsed time and the travel distance in a memory in association with each other; measuring, via the at least one processor of the on-board control apparatus, an on-rail time during which the train is on rails in the block, and calculating an on-rail detecting time during which the train has been on the rails in the block; and searching, via the at least one processor of the on-board control apparatus, the memory on a basis of the on-rail detecting time, and calculating a train length using an accordingly selected travelling distance. 9. The train length calculation method according to claim 8 , wherein elapsed times recorded in the memory include elapsed times that meet a condition that the elapsed times are equal to or greater than the on-rail detecting time, and searching the memory and calculating the train length comprises selecting a shortest one of travelling distances recorded with the elapsed times that meet the condition. 10. The train length calculation method according to claim 8 , wherein searching the memory and calculating the train length comprises taking, as the train length, a value obtained by subtracting a known length of the block from the selected travel distance, and adding an extra length thereto. 11. The train length calculation method according to claim 10 , wherein the extra length is a sum of a distance from a front end of the train to an axle of the train that short-circuits the track circuit first in the train, and a distance from a rear end of the train to an axle of the train that has short-circuited the track circuit last in the train. 12. The train length calculation method according to claim 8 , wherein when a delay time is set in determination of whether the train is on the rails in the block, measuring the on-rail time and calculating the on-rail detecting time comprises taking, as the on-rail detecting time, a value obtained by subtracting the delay time from the on-rail time. 13. The train length calculation method according to claim 8 , comprising: transmitting the on-rail detecting time via a train wireless base station that performs communication using a licensed frequency band in a train wireless system; and receiving the on-rail detecting time through communication using the licensed frequency band, and outputting the on-rail detecting time to the on-board control apparatus. 14. The train length calculation method according to claim 8 , comprising: transmitting the on-rail detecting time via a public wireless network base station that performs communication using a public wireless network; and receiving the on-rail detecting time through communication using the public wireless network, and outputting the on-rail detecting time to the on-board control apparatus.