Battery thermal management device and method

What is claimed is: 1 . A battery thermal management device comprising: a first thermal manager configured to regulate a battery temperature using a liquid working fluid; and a second thermal manager configured to regulate the battery temperature using a gaseous working fluid, wherein the second thermal manager works with the first thermal manager by exchanging heat between the liquid working fluid and the gaseous working fluid. 2 . The battery thermal management device of claim 1 , wherein a flow channel for the liquid working fluid connects the first thermal manager to the powertrain cooling device. 3 . The battery thermal management device of claim 1 , wherein the second thermal manager is further configured to use a gaseous working fluid heated or cooled by a heating, ventilation, and air-conditioning (HVAC) device. 4 . The battery thermal management device of claim 1 , wherein the first thermal manager comprises a storage tank configured to store the liquid working fluid. 5 . The battery thermal management device of claim 4 , wherein the second thermal manager comprises a heat exchanger provided in the storage tank, the heat exchanger being configured to exchange heat between the liquid working fluid and the gaseous working fluid. 6 . The battery thermal management device of claim 4 , wherein the storage tank is configured to be a heat insulator. 7 . The battery thermal management device of claim 4 , wherein the storage tank comprises a heater configured to heat the liquid working fluid. 8 . The battery thermal management device of claim 4 , wherein the storage tank comprises a third heat exchanger configured to exchange heat between an exhaust gas of an engine and any one or any combination of the gaseous working fluid and the liquid working fluid. 9 . The battery thermal management device of claim 1 , wherein a flow channel for the liquid working fluid is excluded from portions of the battery with likelihood of being short-circuited, and a flow channel of the gaseous working fluid is provided all portions of the battery. 10 . The battery thermal management device of claim 1 , wherein, the first thermal manager is further configured to block the liquid working fluid flowing from a powertrain cooling device and to cool the battery using a heat-exchanged liquid working fluid, and the second thermal manager is further configured to exchange heat between an external gaseous working fluid and the liquid working fluid and to cool the battery using the heat-exchanged external gaseous working fluid, in response to a temperature of the battery being greater than or equal to a first temperature and less than a third temperature and an external temperature being less than a second temperature. 11 . The battery thermal management device of claim 1 , wherein the first thermal manager is further configured to block the liquid working fluid flowing from a powertrain cooling device and to cool the battery using a heat-exchanged liquid working fluid, and the second thermal manager is further configured to exchange heat between the gaseous working fluid cooled by a heating, ventilation, and air-conditioning (HVAC) device and the liquid working fluid and to cool the battery using the heat-exchanged gaseous working fluid, in response to a temperature of the battery being greater than or equal to a first temperature and less than a third temperature and an external temperature being greater than or equal to a second temperature. 12 . The battery thermal management device of claim 1 , wherein the first thermal manager is further configured to allow the liquid working fluid from a powertrain cooling device and to heat the battery using a heat-exchanged liquid working fluid, and the second thermal manager is further configured to exchange heat between the liquid working fluid from the powertrain cooling device and the gaseous working fluid heated by a heating, ventilation, and air-conditioning (HVAC) device and to heat the battery using the heat-exchanged gaseous working fluid heated by the HVAC device, when a temperature of the battery is less than a first temperature and an external temperature being less than a second temperature. 13 . The battery thermal management device of claim 1 , wherein the first thermal manager is further configured to allow the liquid working fluid from a powertrain cooling device and to heat the battery using a heat-exchanged liquid working fluid, and the second thermal manager is further configured to exchange heat between the liquid working fluid from the powertrain cooling device and an external gaseous working fluid and to heat the battery using the heat-exchanged external gaseous working fluid, in response to a temperature of the battery being less than a first temperature and an external temperature being greater than or equal to a second temperature. 14 . The battery thermal management device of claim 1 , wherein the first thermal manager is further configured to block the liquid working fluid from a powertrain cooling device and to cool the battery using a heat-exchanged liquid working fluid, and the second thermal manager is further configured to exchange heat between the gaseous working fluid cooled by a heating, ventilation, and air-conditioning (HVAC) device and the liquid working fluid and to cool the battery using the heat-exchanged gaseous working fluid cooled by the HVAC, in response to a temperature of the battery being greater than or equal to a first temperature and an acceleration or a brake signal indicating hill climbing, rapid acceleration, or rapid deceleration. 15 . The battery thermal management device of claim 1 , wherein the first thermal manager is further configured to block the liquid working fluid from a powertrain cooling device and to cool the battery by maximizing the use of a heat-exchanged liquid working fluid, and the second thermal manager is further configured to exchange heat between the gaseous working fluid cooled by a heating, ventilation, and air-conditioning (HVAC) and the liquid working fluid and to cool the battery by maximizing the use of the heat-exchanged gaseous working fluid cooled by the HVAC device, in response to a temperature of the battery being greater than or equal to a temperature. 16 . The battery thermal management device of claim 9 , wherein the portions of the battery with likelihood of being short-circuited comprise a bus bar, a tap portion of each battery cell of the battery, and a battery cell located in the middle of each battery module. 17 . A battery thermal management method comprising: exchanging heat between a liquid working fluid and a gaseous working fluid; regulating a battery temperature using the heat-exchanged liquid working fluid; and regulating the battery temperature using the heat-exchanged gaseous working fluid. 18 . The battery thermal management method of claim 17 , wherein the exchanging of heat between the liquid working fluid and the gaseous working fluid comprises blocking the liquid working fluid from a powertrain cooling device and exchanging heat between an external gaseous working fluid and the liquid working fluid, in response to a temperature of the battery being greater than or equal to a first temperature and less than a third temperature and an external temperature being less than a second temperature. 19 . The battery thermal management method of claim 17 , wherein the exchanging of heat between the liquid working fluid and the gaseous working fluid comprises blocking the liquid working fluid from a pow