Thermoelectric module for a thermoelectric generator of a vehicle and vehicle having thermoelectric modules

The invention claimed is: 1. A thermoelectric module, comprising: an interrupted inner circumferential surface having an axis; an outer circumferential surface; a plurality of semiconductor elements including at least one p-doped semiconductor element and at least one n-doped semiconductor element connected electrically to one another in alternation, said semiconductor elements containing thermoelectric material, said semiconductor elements disposed in a direction of said axis between said interrupted inner circumferential surface and said outer circumferential surface; at least some of said semiconductor elements having at least an inner frame part, said inner frame parts forming said interrupted inner circumferential surface; said interrupted inner circumferential surface forming a cold side of the thermoelectric module; and a dimensionally unstable sheath provided at least at said interrupted inner circumferential surface, said dimensionally unstable sheath provided at least at said interrupted inner circumferential surface being an expansion hose having a preloading force directed toward said outer circumferential surface at room temperature, said preloading force being exerted on said inner frame parts and is at least 15 N/mm 2 at room temperature. 2. The thermoelectric module according to claim 1 , wherein said semiconductor elements have an outer frame part, said thermoelectric material is disposed between said inner frame part and said outer frame part, and at least said inner frame part projects on one side beyond said thermoelectric material forming a dimensionally rigid connecting region there with an adjacent frame part. 3. The thermoelectric module according to claim 1 , wherein adjacent inner frame parts form a free space therebetween at least in said interrupted inner circumferential surface, and a porous insulating material fills said free space. 4. The thermoelectric module according to claim 1 , wherein said dimensionally unstable sheath has at least one spring element producing said preloading force. 5. The thermoelectric module according to claim 1 , wherein said dimensionally unstable sheath is composed at least partially of at least one of a shape memory alloy or a shape memory polymer. 6. The thermoelectric module according to claim 1 , which further comprises an adhesive disposed between said dimensionally unstable sheath and at least said interrupted inner circumferential surface. 7. A vehicle, comprising: an internal combustion engine; a thermoelectric generator having a plurality of thermoelectric modules according to claim 1 ; an exhaust system in communication with said internal combustion engine and extending externally along said outer circumferential surface of said thermoelectric module; and a cooling system in communication with said internal combustion engine and extending within and along said interrupted inner circumferential surface of said thermoelectric module. 8. A thermoelectric module, comprising: an interrupted inner circumferential surface having an axis; an outer circumferential surface; a plurality of semiconductor elements including at least one p-doped semiconductor element and at least one n-doped semiconductor element connected electrically to one another in alternation, said semiconductor elements containing thermoelectric material, said semiconductor elements disposed in a direction of said axis between said interrupted inner circumferential surface and said outer circumferential surface; at least some of said semiconductor elements having at least an inner frame part, said inner frame parts forming said interrupted inner circumferential surface; said interrupted inner circumferential surface forming a cold side of the thermoelectric module; and a dimensionally unstable sheath provided at least at said interrupted inner circumferential surface, said dimensionally unstable sheath provided at least at said interrupted inner circumferential surface being an expansion hose having a preloading force directed toward said outer circumferential surface at room temperature, said preloading force being exerted on said inner frame parts and is at least 10 N/mm 2 at a temperature of between 150° C. and 250° C. at said dimensionally unstable sheath.