Drive-belt connecting device designed for the tension-resistant connection of flat drive-belt end sections, drive belt, and conveying device equipped therewith

The invention claimed is: 1. A drive belt connecting device designed for a tension-resistant connection of flat drive belt end sections which each comprise two belt flat sides of which at least one is a first belt flat side having a belt surface profile, the connecting device comprising: a multi-part connecting body with a longitudinal dimension in the belt tension direction and being configured to retain there in flat drive belt end sections arranged in an overlapping arrangement, said multi-part connecting body having a connecting chamber to accommodate the flat drive belt end sections for connection; said multi-part connecting body comprising plural connecting parts fixable to each other for a tension-resistant connection of the flat drive belt end sections and including profiled connecting surfaces to provide connecting arrangements for positive-locking engagement into the belt surface profiles; said connecting chamber accommodating the drive belt end sections in an overlapping arrangement arranged along a connecting line extending in the longitudinal dimension of the multi-part connecting body; a first outer connecting part of the multi-part connecting body and a second outer connecting part of the multi-part connecting body being arranged to bound the connecting chamber; the first outer connecting part comprising a first outer connecting surface and the second outer connecting part comprising a second outer connecting surface with the first and second outer connecting surfaces being configured to be respectively engage with one of the flat drive belt end sections, whereby the flat drive belt end sections are arranged in a connecting arrangement; an inner connecting part of the multi-part connecting body is arranged inside the connecting chamber and comprises a first inner connecting surface and an opposing second inner connecting surface; said first inner connecting surface being configured to engage with one of the flat drive belt end sections and said second inner connecting surface being configured to engage with another of the flat drive belt end sections; said first outer connecting surface and said first inner connecting surface being arranged opposite said second outer connecting surface and said second inner connecting surface; and a fastening mechanism arranged to fasten the first outer connecting part and the second outer connecting part to each other at a limited fixed distance between the first outer connecting surface and the second outer connecting surface; and an inner connecting mechanism arranged to connect the inner connecting part to at least one of the first or the second outer connecting parts and providing a connection that is secure in the belt tension direction. 2. The device of claim 1 , wherein the fastening mechanism comprises plural fastening elements arranged outside the connecting chamber and extending transversally to the direction of the connecting line and transversally to a layering direction of the connecting parts as determined by the overlapping arrangement of the connecting parts. 3. The device of claim 1 , wherein the inner connecting mechanism is configured to provide a secure positive-locking connection in the belt tension direction. 4. The device of claim 1 , wherein the first inner connecting surface comprises a profile configured to provide a positive-locking engagement into the belt surface profile of the belt flat side of an associated flat drive belt end section. 5. The device of claim 1 , wherein the second outer connecting surface comprises a profile configured to provide a positive-locking fit engagement into the belt surface profile of the belt flat side of an associated flat drive belt end section. 6. The device of claim 1 , wherein the second inner connecting surface is configured to provide a planar connecting arrangement against a corresponding planar belt flat side of an associated flat drive belt end section. 7. The device of claim 1 , wherein the first outer connecting surface is configured to provide a planar connecting arrangement against a corresponding planar belt flat side of an associated flat drive belt end section. 8. The device of claim 1 , wherein the profiled connecting surfaces comprise a tooth profile that is complementary to a toothed belt profile. 9. The device of claim 1 , wherein the first outer connecting surface and the second inner connecting surface are similarly configured to the first inner connecting surface and the second outer connecting surface. 10. The device of claim 1 , wherein the inner connecting part is obliquely arranged inside the connecting chamber whereby an oblique overlapping of the drive belt end sections are connected along the connecting line. 11. The device of claim 1 , wherein the first outer connecting part comprises a connecting housing having an internal housing inner chamber into which the inner connecting part and the second outer connecting part can be inserted in a snug fit. 12. The device of claim 11 , wherein the multi-part connecting body is configured to provide a tension-resistant connection of flat drive belt end sections and which can be connected to a continuous flat drive belt by way of the tension-resistant connection. 13. The device of claim 1 , wherein at least one guide element of the drive belt connecting device is configured to guide the drive belt connecting device longitudinally along a guide line. 14. The device of claim 13 , wherein the at least one guide element is a guiding longitudinal groove that extends in a longitudinal dimension and is arranged on at least one of the first or second outer connecting parts, whereby the longitudinal groove is configured to engage with a sliding guide on a guiding rail determining the guide line. 15. The device of claim 1 , wherein the multi-part connecting body comprises at least one link part that is shaped for positive-locking engagement into a link recess of a deflection device. 16. The device of claim 1 , wherein a connecting element is arranged at least one outer connecting part and is configured to support a transport element. 17. A flat drive belt that is connected to a continuously circulating flat drive belt utilizing at least one drive belt connecting device in accordance with claim 1 . 18. A conveying device comprising two flat drive belts according to claim 17 , said two flat drive belts being arranged in a parallel arrangement at a parallel interval and which can be guided and driven to circulate together along a conveying path and a return path, and comprising at least two of the drive belt connecting devices. 19. The conveying device of claim 18 , wherein the conveying path is formed by a conveyor belt is formed by a series of parallel transport elements and transport blocks. 20. The conveying device of claim 19 , wherein the conveyor belt utilizes transport bearings configured as pivot bearings and which deflect the transport element to pivot back and forth around a transport element pivot axis. 21. The conveying device of claim 20 , wherein the transport blocks form driveable belt elements with identical formed parts and that the conveying device is equipped with a pair of deflection wheels for circulation, wherein the deflection wheels have circumferential link recesses, which entrain the identical formed parts of the driveable belt elements for deflecting the belts. 22. The conveying device of claim 21 , wherein the conveying device is equipped with a guiding device that has guiding rails arra