Device and method for bonding substrates

Having described the invention, the following is claimed: 1. An apparatus for bonding a bond side of a first substrate to a bond side of a second substrate, said apparatus being configured to be closed and gastight relative to a surrounding environment, comprising: a module group comprising: at least one central module comprising a movement apparatus arranged therewithin; at least one reduction module comprising a reduction space, the reduction space being connected in a sealed manner to the central module, the reduction module being configured to reduce the bond sides; at least one bond module comprising a bond space, the bond module being connected in a sealed manner to the central module, the bond module being configured to bond the substrates on the bond sides; and at least one process module connected in a sealed manner to the central module, the process module being configured to perform further processes with respect to the substrates to be bonded in the bond module, wherein the movement apparatus is configured to move the first and second substrate in the apparatus between the modules, wherein the reduction space in the reduction module and/or the bond space in the bond module are configured to be separated from the central module in a sealed manner, wherein the at least one process module comprises an alignment module configured to align the substrates to each other, and wherein the at least one process module further comprises a cleaning module configured to preclean, course clean, and/or completely reduce oxides from respective surfaces of the substrates. 2. The apparatus as claimed in claim 1 , wherein the reduction space is exposed separately from the central module to a reducing atmosphere. 3. The apparatus as claimed in one of claim 1 or 2 , wherein the reduction space and/or the bond space are respectively heated separately from the central module by a furnace to a reduction temperature for the reduction space and/or a bond temperature for the bond space. 4. The apparatus as claimed in one of claim 1 or 2 , wherein the reduction space is exposed to a temperature profile and/or a pressure profile and repeatedly flushed with a reduction medium. 5. A method for bonding one bond side of a first substrate to one bond side of a second substrate in a bonding apparatus including a module group, the module group including a central module, a reduction module, a bond module, and a process module, the central module including a movement apparatus arranged therewithin, the apparatus being configured to be closed and gastight relative to a surrounding environment, the method comprising: processing the substrates to be bonded in the bond module, the processing being performed in the process module, said process module being connected in a sealed manner to the central module; moving the substrates from the process module to the reduction module using the movement apparatus; reducing the bond sides of said substrates in the reduction module, said reduction module being connected in a sealed manner to the central module; moving the from the reduction module to the bond module using the movement apparatus; and bonding the first substrate to the second substrate on the bond sides in the bond module, the bond module being connected in a sealed manner to the central module, wherein a reduction space in the reduction module and/or a bond space in the bond module are configured to be separated from the central module in a sealed manner. 6. The method as claimed in claim 5 , further comprising: exposing the reduction space separately from the central module to a temperature profile and/or a pressure profile; and repeatedly flushing the reduction space with a reduction medium. 7. The method as claimed in claim 5 , wherein the reduction space is exposed separately from the central module to a reducing atmosphere.