Connection system with modular expansion units having two or more devices

The invention claimed is: 1. A connection system for electrical devices, comprising; first and second connection modules, each of the first and second connection module including a first connection device, the first connection module further including a second connection device and the second connection module further including a third connection device, the first and second connection modules each being able to accommodate a device so that, when the accommodated device and the first or second connection module are in a coupled state, there is a direct electrical connection between the first connection device of the first or second connection module and the accommodated device and a direct mechanical connection between the first or second connection module and the accommodated device, wherein the second connection device of the first connection module is configured to directly lock to the third connection device of the second connection module so that, in the coupled state, the first connection module is electrically and mechanically connected to the second connection module, wherein the third connection device is disposed and implemented such that, when the second connection device and the third connection device are in the coupled state, mechanical and electrical disconnections of the first connection module from the second connection module is prevented if the second connection module has received the accommodated device, wherein the second connection device includes a snap lug which is configured to latch into a snap lug counterpart of the third connection device, wherein the snap lug counterpart is deflected into a region which is occupied by the received device during mechanical coupling of the first connection module to the second connection module, and wherein the first and second connection modules each includes a top-hat rail mount. 2. The connection system of claim 1 , wherein the first connection module is of identical construction to the second connection module. 3. The connection system of claim 2 , wherein the first and second connection module, each comprises a latching device configured to establish the direct mechanical connection to the accommodated device. 4. The connection system of claim 2 , wherein the direct mechanical connection between the first connection module and the second connection modules comprises a detachable snap-on connection. 5. The connection system of claim 2 , further comprising: a third connection module, including a first connection device, the third connection module configured to accommodate a device so that when the device and the third connection module are in the coupled state, there is a direct electrical connection between the first connection device of the third module and the accommodated device and a direct mechanical connection between the third connection module and the accommodated device, wherein the third connection module includes a third connection device, wherein the second connection module comprises a second connection device, the second connection device of the first or second connection module is configured to directly lock to the third connection device of the third connection module so that, in the locked state, the second connection device of the first or second connection module is electrically and mechanically connected to the third connection module, wherein the third connection device is disposed and implemented such that, when the second connection device and the third connection device are in the locked state, mechanical and electrical separations of the second connection device from the third connection module are prevented if the third connection module has received an accommodated device, and wherein the third connection module comprises a termination device enabling electrical contact elements of the first connection device to be interconnected. 6. The connection system of claim 1 , wherein the first and second connection modules each comprises a latching device configured to establish a direct mechanical connection to the accommodated device. 7. The connection system of claim 1 , wherein the direct mechanical connection between modules comprises a detachable snap-on connection. 8. The connection system of claim 1 , wherein the second and third connection devices each comprises at least two electrical contact elements, each configured to be guided inside the accommodated device to a contact element of the first connection device. 9. The connection system of claim 1 , further comprising: a third connection module, including a first connection device, the third connection module being able to accommodate a device so that when the device and the third connection module are in the coupled state, there is a direct electrical connection between the first connection device of the third module and the accommodated device and a direct mechanical connection between the third connection module and the accommodated device, wherein the third connection module includes a third connection device, wherein the second connection module comprises a second connection device, the second connection device of the first or second connection module is configured to directly lock to the third connection device of the third connection module so that, in the locked state, the second connection device of the first or second connection module is electrically and mechanically connected to the third connection module, wherein the third connection device is disposed and implemented such that, when the second connection device and the third connection device are in the locked state, mechanical and electrical separations of the second connection device from the third connection module is prevented if the third connection module has received a device, and wherein the third connection module comprises a termination device enabling electrical contact elements of the first connection device to be interconnected. 10. A system, comprising: the connection system of claim 1 ; and first and second devices, wherein the first device is configured to be coupled to the first connection module and the second device is configured to be coupled to the second connection module. 11. The system of claim 10 , wherein the first device is a basic module and the second device is an expansion module, and wherein in the coupled state of the basic module to the first connection module, of the expansion module to the second connection module and of the first connection module to the second connection module, the basic module is configured to output an electrical signal to the expansion module via the first and second connection modules. 12. The system of claim 11 , wherein the first and second devices, each comprise a circuit board including an electrically conductive contact surface, and wherein the accommodated device is in direct electrical contact with the first connection device via the electrically conductive contact surface. 13. The system of claim 11 , wherein, in the region of the top-hat rail mount, the accommodated device includes a contact point configured to establish electrical contact between the accommodated device and the first connection device. 14. The system of claim 10 , wherein the first and second devices each comprise a circuit board including an electrically conductive contact surface, and wherein the accommodated device is in direct electrical contact with the first connection device via the electrically conductive contact surface. 15. The system of claim 14 , wherein, in the region of the top-hat rail mount, the accommodated device includes a contact point configu