Metal bellows with guide rings

The invention claimed is: 1. A well pump assembly for pumping well fluid from a well, comprising: a pump; an electrical motor operatively coupled to the pump for driving the pump; a seal section operatively coupled to the motor for reducing a pressure difference between a dielectric lubricant in the motor and a hydrostatic well fluid pressure on an exterior of the motor, the seal section comprising: a housing having a longitudinal axis and a cylindrical inner surface; first and second end members at opposite ends of the housing; a guide tube concentric with the axis and fixed between the end members; an outer bellows within the housing surrounding the guide tube, the outer bellows having a fixed end secured to the first end member and a floating end that moves axially relative to the fixed end, and the outer bellows having a flexible corrugated wall that is closely spaced to the inner surface of the housing and moves axially relative to the housing when the outer bellows contracts and extends; a sleeve within the outer bellows, the sleeve having an external flange secured to the floating end of the outer bellows and an internal flange located within the outer bellows; an inner bellows surrounding the guide tube, the inner bellows having a fixed end secured to the second end member and a floating end located within the outer bellows and secured to the internal flange; a guide ring secured to the wall of the outer bellows between the fixed and floating ends of the outer bellows, the guide ring having a contacting surface protruding slightly from the wall and slidingly engaging the inner surface of the housing as the outer bellows contracts and extends; and wherein the guide ring has an inner diameter that is larger than an outer diameter of the sleeve. 2. The assembly according to claim 1 , wherein: the inner diameter of the guide ring is greater than an inner diameter of the wall of the outer bellows. 3. The assembly according to claim 1 , further comprising: a coating on contacting surface of the guide ring to reduce friction and increase wear life. 4. The assembly according to claim 1 , wherein: the contacting surface of the guide ring comprises an insert member of a hard, wear resistant material secured to the guide ring. 5. The assembly according to claim 1 , further comprising: a plurality of axially extending grooves formed in contacting surface of the guide ring, the grooves being circumferentially spaced apart from each other. 6. The assembly according to claim 1 , wherein: the outer bellows comprises at least two separate flexible corrugated wall segments; and the guide ring joins and secures mating ends of the two segments together. 7. The assembly according to claim 1 , wherein: the guide ring has an intermediate portion, a first cylindrical extension protruding axially from the intermediate portion in one direction and a second cylindrical extension protruding axially from the intermediate portion in an opposite direction; the outer bellows comprises at least two separate flexible corrugated wall segments, each of the segments having an end that secures to the intermediate portion of the guide ring; each of the segments have a corrugated portion of the wall extending alongside one of the cylindrical extensions; and wherein the contacting surface of the guide ring extends from a free end of one of the cylindrical extensions to a free end of another of the cylindrical extensions, defining a greater axial length for the contacting surface than an axial dimension of the intermediate portion. 8. The assembly according to claim 1 , wherein: the guide ring is located between the outer diameter of the sleeve and the inner surface of the housing. 9. A well pump assembly for pumping well fluid from a well, comprising: a pump; an electrical motor operatively coupled to the pump for driving the pump; a seal section operatively coupled to the motor for reducing a pressure difference between a dielectric lubricant in the motor and a hydrostatic well fluid pressure on an exterior of the motor, the seal section comprising: a guide tube having a longitudinal axis and an outer cylindrical guide surface; an inner and an outer bellows surrounding the guide tube, each of the inner and outer bellows having a flexible corrugated wall that allows axial contraction and extension, the inner bellows having a smaller outer diameter than an inner diameter of the outer bellows; and a guide ring secured to the corrugated wall of the inner bellows between opposite ends of the inner bellows, the guide ring having a contacting surface protruding inward from the corrugated wall of the inner bellows, the contacting surface slidingly engaging the guide surface as the inner bellows contracts and extends to prevent contact of the corrugated wall of the inner bellows with the guide surface. 10. The assembly according to claim 9 , further comprising a wear resistant coating on the contacting surface of the guide ring. 11. The assembly according to claim 9 , wherein the contacting surface of the guide ring comprises: an insert member of a hard, wear resistant material secured to the guide ring. 12. The assembly according to claim 9 , further comprising: a plurality of axially extending grooves formed in the contacting surface of the guide ring, the grooves being circumferentially spaced apart from each other. 13. The assembly according to claim 9 , wherein: the corrugated wall of the inner bellows comprises at least two separate corrugated wall segments; and the guide ring joins and secures mating ends of the two segments together. 14. The assembly according to claim 9 , wherein: the guide ring has an intermediate portion, a first cylindrical extension protruding axially from the intermediate portion in one direction and a second cylindrical extension protruding axially from the intermediate portion in an opposite direction, the first and second cylindrical extensions having an outer diameter less than an outer diameter of the intermediate portion; the corrugated wall of the bellows comprises at least two separate corrugated wall segments, each of the segments having a portion that extends around one of the cylindrical extensions, each of the segments having an end secured to the outer diameter of the intermediate portion; and wherein the contacting surface extends from a free end of one of the cylindrical extensions to a free end of the other of the cylindrical extensions, defining a greater axial length for the contacting surface than an axial dimension of the intermediate portion. 15. A well pump assembly for pumping well fluid from a well, comprising: a pump; an electrical motor operatively coupled to the pump for driving the pump; a seal section operatively coupled to the motor for reducing a pressure difference between a dielectric lubricant in the motor and a hydrostatic well fluid pressure on an exterior of the motor, the seal section comprising: a housing having a longitudinal axis; first and second end members at opposite ends of the housing; a guide tube concentric with the axis and fixed between the end members; an outer bellows within the housing surrounding the guide tube, the outer bellows having a fixed end secured to the first end member and a floating end that moves axially relative to the fixed end; an inner bellows surrounding the guide tube, having a fixed end secured to the second end member and a floating end located within the outer bellows, the floating end of the inner bellows being operatively connected with the floating end of the outer bellows for moveme