Secondary battery laminating device and secondary battery laminating method

The invention claimed is: 1. A secondary battery laminating device comprising: a transfer part transferring an electrode assembly comprising electrode tabs protruding from one side of an electrode in a state in which the electrode assembly is disposed on a separator, wherein the electrode tabs are different in thickness from the electrode; and a bonding part disposed on a transfer path of the transfer part and moving toward the electrode assembly disposed on the separator; and of which one surface contacting an entire upper surface of the electrode assembly and applying heat to the electrode assembly, wherein the one surface comprises a first region contacting an entire upper surface of the electrode tabs, a second region configuring a stepped portion with the first region and contacting an entire upper surface of the electrode and a third region configuring a stepped portion with the first region and the second region, wherein the first region and the second region are configured in a shape corresponding to the upper surface of the electrode assembly and the third region is configured to contact the separator, and wherein the third region is separated from the first region by the second region. 2. The secondary battery laminating device of claim 1 , wherein the first region, the second region and the third region are successively divided in a longitudinal direction of the bonding part, a length of the bonding part in the longitudinal direction corresponding to a width of the separator. 3. The secondary battery laminating device of claim 1 , wherein the bonding part includes a first thickness in the first region, a second thickness in the second region and a third thickness in the third region, the second thickness less than the first thickness and the first thickness less than the third thickness. 4. A secondary battery laminating method comprising: disposing an electrode assembly comprising electrode tabs protruding from one side of an electrode on a separator; continuously transferring the separator in a state in which the electrode assembly is disposed; and bonding the electrode assembly to the separator by moving a bonding part disposed on a transfer path of the separator toward the electrode assembly and contacting the bonding part to an entire upper surface of the electrode assembly and applying heat to the electrode assembly; wherein the bonding part has one surface that includes a first region contacting an entire upper surface of the electrode tabs, a second region configuring a stepped portion with the first region and contacting an entire upper surface of the electrode and a third region configuring a stepped portion with the first region and the second region and contacting the separator, wherein the first region and the second region are configured in a shape corresponding to the upper surface of the electrode assembly, and wherein the third region is separated from the first region by the second region. 5. The secondary battery laminating method of claim 4 , wherein the first region, the second region and the third region are successively divided in a longitudinal direction of the bonding part such that bonding occurs simultaneously across a width of the separator including the electrode assembly thereon. 6. The secondary battery laminating method of claim 4 , wherein the bonding part includes a first thickness in the first region, a second thickness in the second region and a third thickness in the third region, the second thickness less than the first thickness and the first thickness less than the third thickness so that the first region, the second region and the third region make simultaneous contact with the electrode tabs, the electrode and the separator, respectively.