Method and device for regenerating nickel metal hydride battery

The invention claimed is: 1. A method for regenerating a nickel metal hydride battery, wherein the nickel metal hydride battery includes a hydrogen absorbing alloy that serves as a negative electrode material and a safety valve that opens when an internal pressure of a battery case is greater than or equal to a predetermined pressure, the method comprising: connecting a plurality of nickel metal hydride batteries in parallel, wherein each nickel metal hydride battery is formed by integrating one or more battery cells; overcharging the nickel metal hydride batteries by supplying current from a charge unit that is connected in parallel to the nickel metal hydride batteries; and when each nickel metal hydride battery is overcharged, restoring a discharge reserve of a negative electrode of the overcharged nickel metal hydride battery by releasing at least some of an oxygen gas generated at a positive electrode of the overcharged nickel metal hydride battery out of the battery case through the safety valve, wherein a switch is arranged between each nickel metal hydride battery and the charge unit to connect and disconnect the corresponding nickel metal hydride battery and the charge unit, and each nickel metal hydride battery includes a voltage measurement unit that measures voltage between terminals of the corresponding nickel metal hydride battery, the method further comprising: setting in advance a voltage increase width per unit of time before the safety valve opens in the nickel metal hydride battery that has a decreased positive electrode capacity; and when a voltage increase width of a voltage value measured by at least one of the voltage measurement units is greater than or equal to the set voltage increase width during charging of the nickel metal hydride batteries, stopping charging of the corresponding nickel metal hydride battery. 2. The method according to claim 1 , wherein the overcharging the nickel metal hydride batteries includes performing, with the charge unit, constant current charging that supplies a constant current to the nickel metal hydride batteries, constant voltage charging that applies a constant voltage to the nickel metal hydride batteries, or constant current-constant voltage charging that combines the constant current charging and the constant voltage charging. 3. The method according to claim 1 , further comprising: setting in advance a target post-valve-open charge amount that is required to restore a discharge reserve in correspondence with a target amount after the safety valve opens; stopping charging of all of the nickel metal hydride batteries after performing charging in correspondence with the target post-valve-open charge amount after the safety valves of all the nickel metal hydride batteries open. 4. The method according to claim 1 , wherein each nickel metal hydride battery is formed by integrating battery cells, wherein each nickel metal hydride battery includes an integrated battery jar that accommodates the battery cells with a partition wall, the method further comprising: providing the partition wall with a communication hole so that oxygen gas generated from each battery cell that is overcharged flows in the integrated battery jar through the communication hole. 5. A regeneration device for a nickel metal hydride battery, wherein the nickel metal hydride battery includes a hydrogen absorbing alloy that serves as a negative electrode material and a safety valve that opens when an internal pressure of a battery case is greater than or equal to a predetermined pressure, wherein nickel metal hydride batteries are connected in parallel, and each nickel metal hydride battery is formed by integrating one or more battery cells, the regeneration device comprising: a charge unit connected in parallel to the nickel metal hydride batteries, wherein the charge unit supplies current, and a control unit that controls supply and interruption of current from the charge unit, and the control unit is configured to have the charge unit supply current and overcharge the nickel metal hydride batteries, and when each nickel metal hydride battery is overcharged, restore a discharge reserve of a negative electrode by releasing at least some of an oxygen gas generated at a positive electrode out of the battery case through the safety valve, wherein a switch is arranged between each nickel metal hydride battery and the charge unit to connect and disconnect the corresponding nickel metal hydride battery and the charge unit, and each nickel metal hydride battery includes a voltage measurement unit that measures voltage between terminals of the corresponding nickel metal hydride battery, the control unit is further configured to perform: setting in advance a voltage increase width per unit of time before the safety valve opens in the nickel metal hydride battery that has a decreased positive electrode capacity; and when a voltage increase width of a voltage value measured by at least one of the voltage measurement units is greater than or equal to the set voltage increase width during charging of the nickel metal hydride batteries, stopping charging of the corresponding nickel metal hydride battery. 6. A method for regenerating a nickel metal hydride battery, wherein the nickel metal hydride battery includes a hydrogen absorbing alloy that serves as a negative electrode material and a safety valve that opens when an internal pressure of a battery case is greater than or equal to a predetermined pressure, the method comprising: connecting a plurality of nickel metal hydride batteries in parallel, wherein each nickel metal hydride battery is formed by integrating one or more battery cells; overcharging the nickel metal hydride batteries by supplying current from a charge unit that is connected in parallel to the nickel metal hydride batteries; and when each nickel metal hydride battery is overcharged, restoring a discharge reserve of a negative electrode of the overcharged nickel metal hydride battery by releasing at least some of an oxygen gas generated at a positive electrode of the overcharged nickel metal hydride battery out of the battery case through the safety valve, wherein a switch is arranged between each nickel metal hydride battery and the charge unit to connect and disconnect each nickel metal hydride battery and the charge unit, and each nickel metal hydride battery includes a voltage measurement unit that measures voltage between terminals of the corresponding nickel metal hydride battery, the method further comprising: setting in advance a voltage increase determination value for a voltage value of the nickel metal hydride battery having a decreased positive electrode capacity, wherein the voltage increase determination value is used to determine a voltage increase behavior after the safety valve opens; and when a voltage value measured by at least one of the voltage measurement units is greater than or equal to the set voltage increase determination value during charging of the nickel metal hydride batteries, stopping charging of the corresponding nickel metal hydride battery. 7. A method for regenerating a nickel metal hydride battery, wherein the nickel metal hydride battery includes a hydrogen absorbing alloy that serves as a negative electrode material and a safety valve that opens when an internal pressure of a battery case is greater than or equal to a predetermined pressure, the method comprising: connecting a plurality of nickel metal hydride batteries in parallel, wherein each nickel metal hydride battery is formed by integrating one or more battery cells; overcharging the nickel metal hydride batteries by supplying current from a charge unit that is connected in parallel to the nickel metal hydride batteries; and wh