Planetary gearbox, assembly method thereof, associated robot joint and robot

What is claimed is: 1. A planetary gearbox, comprising: a housing extending along a first axis; a first coupling member arranged on an inner circumference of the housing; an input component operable to rotate about the first axis; at least one intermediate component, each intermediate component comprising a second coupling member and adapted to be driven by the input component to rotate about a second axis offset from the first axis with the second coupling member engaging with the first coupling member; an output component coupled to the at least one intermediate component and operable to rotate about the first axis with rotation of the at least one intermediate component, wherein at least one of the first coupling member and the second coupling member comprises a synchronous belt, and wherein the each intermediate component further comprises a wheel for the synchronous belt to be arranged on its outer circumference, and the first coupling member comprises teeth engaging with teeth of the synchronous belt, wherein the wheel comprises teeth arranged on its outer circumference, and the synchronous belt comprises a double-side synchronous belt arranged along the outer circumference of the wheel by arranging teeth of one side of the double-side synchronous belt between the teeth of the wheel. 2. The planetary gearbox of claim 1 , wherein the teeth of the first coupling member are integrally formed on the inner circumference of the housing by machining, injection molding or extrusion. 3. A robot joint comprising at least one planetary gearbox according to claim 2 . 4. A robot comprising at least one robot joint of claim 3 . 5. The planetary gearbox of claim 1 , wherein the synchronous belt is arranged on the outer circumference of the wheel by interference fit, glues, or rivets. 6. A robot joint comprising at least one planetary gearbox according to claim 5 . 7. A robot comprising at least one robot joint of claim 6 . 8. The planetary gearbox of claim 1 , wherein the first coupling member comprises the synchronous belt, and each wheel comprises a gear engaging with the synchronous belt, and wherein a tooth profile of the gear matches with a tooth profile of the synchronous belt. 9. The planetary gearbox of claim 8 , wherein the input component comprises an input shaft extending along the first axis. 10. A robot joint comprising at least one planetary gearbox according to claim 8 . 11. A robot comprising at least one robot joint of claim 10 . 12. The planetary gearbox of claim 1 , wherein the input component comprises an input shaft extending along the first axis. 13. The planetary gearbox of claim 12 , wherein the input shaft comprises at least one supporting section centered on the second axis, and each intermediate component is arranged on the respective supporting section. 14. The planetary gearbox of claim 13 , wherein each intermediate component further comprises a plurality of through holes arranged about the second axis, and wherein the output component comprises a plurality of output pins, each output pin arranged in the respective through hole and driven by the rotation of the at least one intermediate component to cause the output component to rotate. 15. A robot joint comprising at least one planetary gearbox according to claim 14 . 16. A robot comprising at least one robot joint of claim 15 . 17. A robot joint comprising at least one planetary gearbox according to claim 13 . 18. A robot comprising at least one robot joint of claim 17 . 19. A robot joint comprising at least one planetary gearbox according to claim 7 . 20. A robot comprising at least one robot joint of claim 19 . 21. A robot joint comprising at least one planetary gearbox according to claim 1 . 22. A robot comprising at least one robot joint of claim 21 . 23. An assembly method of a planetary gearbox, comprising: providing a housing extending along a first axis; arranging a first coupling member on an inner circumference of the housing; providing an input component operable to rotate about the first axis; arranging at least one intermediate component between the input component and the first coupling member, each intermediate component comprising a second coupling member and adapted to be driven by the input component to rotate about a second axis offset from the first axis with the second coupling member engaging with the first coupling member; and providing an output component coupled to the at least one intermediate component and operable to rotate about the first axis with rotation of the at least one intermediate component, wherein at least one of the first coupling member and the second coupling member comprises a synchronous belt, and wherein the each intermediate component further comprises a wheel for the synchronous belt to be arranged on its outer circumference, and the first coupling member comprises teeth engaging with teeth of the synchronous belt, wherein the wheel comprises teeth arranged on its outer circumference, and the synchronous belt comprises a double-side synchronous belt arranged along the outer circumference of the wheel by arranging teeth of one side of the double-side synchronous belt between the teeth of the wheel.