Underwater motor module for a water sports device

The invention claimed is: 1. An underwater motor module for a water sports device, the underwater motor module comprising: at least one flow channel, each of said at least one flow channel having at least one inlet opening and an outlet opening; a motor, which is an internal rotor motor, the motor including: a hollow rotor which concomitantly forms the flow channel by way of an inner side of the hollow rotor, and which on an outer side directed away from the flow channel is mounted outside the flow channel, blades bourn by the inner side and an external stator arranged in a housing, wherein a module portion, which has at least one guide blade and concomitantly forms the flow channel, is arranged downstream of the rotor in the flow direction, in which module portion, radially from the guide blade as viewed in the flow direction, are arranged motor electronics. 2. The underwater motor module as claimed in claim 1 , wherein the rotor has permanent magnets which are arranged next to one another in the circumferential direction (U) and which are retained on the rotor. 3. The underwater motor module as claimed in claim 1 , wherein the stator has a plurality of coils arranged next to one another in the circumferential direction (U). 4. The underwater motor module as claimed in claim 1 , wherein the motor electronics have a plurality of elongate capacitors arranged next to one another in the circumferential direction (U). 5. The underwater motor module as claimed in claim 1 wherein the motor electronics and the stator are arranged in the housing. 6. The underwater motor module as claimed in claim 4 , wherein the stator is potted in at least one of the parts of the housing. 7. An underwater motor module for a water sports device, the underwater motor module comprising: at least one flow channel, each of said at least one flow channel having at least one inlet opening and an outlet opening; a motor, which is an internal rotor motor, the motor including: a hollow rotor which concomitantly forms the flow channel by way of an inner side of the hollow rotor, and which on an outer side directed away from the flow channel is mounted outside the flow channel, blades bourn by the inner side and an external stator arranged in a housing, wherein at the rear in the flow direction, the housing has a widening outer portion, which forms the at least one inlet opening, which is annular or in the form of a segment of a ring. 8. An underwater motor module for a water sports device, the underwater motor module comprising: at least one flow channel, each of said at least one flow channel having at least one inlet opening and an outlet opening; a motor, which is an internal rotor motor, the motor including: a hollow rotor which concomitantly forms the flow channel by way of an inner side of the hollow rotor, and which on an outer side directed away from the flow channel is mounted outside the flow channel, blades bourn by the inner side, an external stator arranged in a housing, and a front connection region for an energy storage module and/or a control unit. 9. An underwater drive comprising: an underwater motor module as claimed in claim 8 ; and an energy storage module. 10. The underwater drive as claimed in claim 9 , wherein the energy storage module comprises a plurality of battery packs which are arranged in an energy storage module housing, which is detachably connected to the underwater motor module. 11. The underwater drive as claimed in claim 9 wherein the energy storage module has a handle. 12. The underwater drive as claimed in claim 9 , wherein the control unit is designed to generate control signals for the motor. 13. The underwater drive as claimed in claim 9 , wherein in addition to the flow channel, a flow cooling channel leads through the energy storage module. 14. The underwater drive as claimed in claim 9 , wherein further including at least one control element, which influences the alignment of a flow of water produced during operation and which is formed by at least one alignable part of the underwater motor module and/or a nozzle element. 15. The underwater drive as claimed in claim 9 , wherein the rotor has blades that can be rotated about a respective blade axis (A). 16. The underwater drive as claimed in claim 15 , wherein the rotor has a multi-part form with a blade carrier in the form of an impeller ring and an adjusting ring that can be displaced relative to the blade carrier along an axis of rotation (R) and that acts on respective blade receptacles by way of respective displacing means for the purpose of pivoting the blades. 17. A water sports device comprising: an underwater drive as claimed in claim 9 . 18. The water sports device as claimed in claim 17 , further including: a floating body; and a hydrofoil device which is fastened to the floating body by means of a retaining device, wherein the hydrofoil device arranged on a link of the retaining device has one or more hydrofoils and via the retaining device can be transferred from a rest and/or starting position close to the floating body into an operating position below the floating body, wherein, in the operating position and during a forward movement, on account of the buoyancy brought about by the hydrofoil device the floating body can be transferred into a position spaced apart from a water surface, wherein the underwater motor module is formed at least partially as part of the hydrofoil device. 19. A method for constructing a water sports device which has a modular structure comprising a floating body module and the one or more modules of which can be connected to one another via interfaces and are connected during operation, as claimed in claim 18 , the method comprising the steps of: providing user-defined inputs to a server device via a program-controlled input interface on a terminal, wherein mapping the modules are in a computer program of the server device and/or of the terminal, and wherein at least one outer contour of the floating body module of the water sports device can be freely defined by a user, providing manufacturing information in an automated manner on the basis of the outer contour, and manufacturing the floating body module in accordance with the manufacturing information for connection to a module to complete the water sports device. 20. The method as claimed in claim 19 , wherein an automated check is carried out on the server device or the terminal in terms of structural properties of the water sports device.