Battery control system and battery control method

The invention claimed is: 1. A battery control system comprising: a plurality of battery modules, each battery module configured to acquire battery information of a battery respective to that battery module including at least a voltage of the battery; and a relay connected to each of the plurality of battery modules via one or more communication lines and the relay configured to control the plurality of battery modules connected to the relay, wherein the relay includes: a battery information processing unit that: (i) receives, from a control device, measurement instruction information requesting acquisition of the battery information and transmits the measurement instruction information to each battery module connected to the relay, and (ii) receives the battery information and a battery information acquisition time from each battery module, wherein the battery information acquisition time is a measurement of time from a measurement starting time for acquiring the battery information to when the battery information is acquired by the battery module from the battery respective to that battery module, and a measurement time differential detecting unit that: (i) acquires the battery information acquisition time for each battery module via the battery information processing unit, (ii) determines a reference battery information acquisition time, wherein the reference battery information acquisition time is the battery information acquisition time that is latest among all received battery information acquisition times, (iii) calculates measurement time differential information (Δt), wherein the measurement time differential information (Δt) includes, for each battery module other than the battery module associated with the reference battery information acquisition time, a time difference value between the reference battery information acquisition time and the battery information acquisition time of the respective battery module, and (iv) transmits the calculated measurement time differential information (Δt) associated with each battery module to each respective battery module, and wherein each of the plurality of the battery modules includes: an acquisition time measurement unit that measures the battery information acquisition time for the battery module to acquire the battery information from the battery, a battery information acquisition unit that: (i) measures and acquires the battery information of the battery when the measurement instruction information is received from the relay, (ii) acquires the battery information acquisition time from the acquisition time measurement unit, and (iii) transmits the battery information and the battery information acquisition time to the relay, and a measurement time correction unit that (i) receives the measurement time differential information (Δt) from the relay, (ii) store the received measurement time differential information (Δt) in a storage unit, and (iii) when the battery information acquisition unit receives the measurement instruction information, corrects the measurement starting time for measuring the battery information by delaying the measurement starting time by the measurement time differential information (Δt) stored in the storage unit so that each of the plurality of the battery modules acquires the respective battery information at a same time. 2. The battery control system according to claim 1 , wherein the relay includes a storage unit in which the measurement time differential information (Δt) calculated by the measurement differential detecting unit for each battery module is stored, wherein the measurement differential detecting unit (i) calculates new measurement time differential information (Δt) when a new battery information acquisition time transmitted from each battery module as a response to a new measurement instruction information by the battery information processing unit, (ii) compares a new measurement time differential information (Δt) with the measurement time differential information (Δt) stored in the storage unit of the relay, and transmits the new measurement time differential information (Δt) to each battery module when the time difference value exceeds a predetermined threshold value, and wherein the measurement time correction unit of the battery module updates the measurement time differential information (Δt) stored in the storage unit of the measurement time correction unit using the new measurement time differential information (Δt). 3. The battery control system according to claim 1 , wherein the measurement time differential detecting unit of the relay calculates new measurement time differential information (Δt) with respect to a new battery information acquisition time transmitted from each battery module as a response to a new measurement instruction information by the battery information processing unit, and transmits the calculated new measurement time differential information (Δt) to each battery module, and wherein the measurement time correction unit of the battery module compares the received new measurement time differential information (Δt) with the measurement time differential information (Δt) stored in the storage unit of the measurement time correction unit, and when the time difference value exceeds a predetermined threshold value, updates the measurement time differential information (Δt) stored in the storage unit of the measurement time correction unit using the new measurement time differential information (Δt). 4. The battery control system according to claim 1 , wherein the control device is connected to the relay via a different communication line, wherein the battery information processing unit of the relay transmits the battery information and the battery information acquisition time received from each of the plurality of battery modules to the control device, and wherein the control device includes: a battery information managing unit that collects the battery information and the battery information acquisition time from the relay, and a display processing unit that displays the collected battery information and battery information acquisition time on a display unit. 5. The battery control system according to claim 1 , wherein the reference battery information acquisition time is the battery information acquisition time that is earliest among all received battery information acquisition times. 6. A battery control method of a battery control system which includes a plurality of battery modules, each battery module configured to acquire battery information of a battery respective to that battery module including at least a voltage of the battery and a relay that is connected to each of the plurality of battery modules via one or more communication lines and the relay configured to control the plurality of battery modules connected to the relay, wherein the relay executes the following steps: receiving, from a control device, measurement instruction information requesting acquisition of the battery information and transmitting the measurement instruction information to each battery module connected to the relay; receiving the battery information and a battery information acquisition time from each battery module, wherein the battery information acquisition time is a measurement of time from a measurement starting time for acquiring the battery information to when the battery information is acquired by the battery module from the battery respective to that battery module; and acquiring the battery information acquisition time for each battery module, determining a reference battery information acquisition time, wherein the reference battery information acquisition time is the battery information acquisition time that is latest among all received battery information acq