Metal bellows seal section and method to evacuate air during filling

The invention claimed is: 1. An electrical submersible pump assembly, comprising: a pump; a motor operatively coupled to the pump for driving the pump; a seal section having a longitudinal axis and coupled to the motor, the seal section comprising: axially spaced apart first and second end members; a bellows having a fixed end mounted to the first end member and a floating end that moves axially as the bellows moves between an extended and a contracted position; a rigid sleeve located within the bellows, defining a sleeve annulus between the sleeve and the bellows, the sleeve having an outer end that joins and moves axially with the floating end of the bellows, the sleeve annulus having a closed outer end and an open inner end; a sleeve evacuation passage within the side wall of the sleeve extending from a sleeve evacuation passage port in the inner end of the sleeve to a sleeve evacuation passage opening in the sleeve annulus adjacent the outer end of the sleeve; a first member evacuation passage from an exterior of the first end member through the first end member to a first member evacuation passage non facing the inner end of the sleeve to evacuate air from an interior of the bellows and from the sleeve evacuation passage prior to filling with lubricant; a first flow path for air evacuation from the open inner end of the sleeve annulus to the first member evacuation passage port; a second flow path for air evacuation from the sleeve evacuation passage opening through the sleeve evacuation passage and out the sleeve evacuation passage port to the first member evacuation passage port; and means for evacuating air from both the first and second flow paths while the bellows is in an extended position and for evacuating air from only the second flow path when the bellows reaches a selected intermediate contracted position. 2. The assembly according to claim 1 , wherein: the sleeve has an interior side and an exterior side; the sleeve evacuation passage opening is on the exterior side; and the sleeve evacuation passage port is isolated from the interior side. 3. The assembly according to claim 1 , wherein: the ports are in axial alignment with each other and offset from the axis. 4. The assembly according to claim 1 , wherein the means for evacuating air comprises: an axially protruding tube mounted in one of the ports and offset from the axis, the tube having an open tip axially spaced from the other of the ports while the bellows is in the extended position; and wherein the open tip of the tube sealingly engages the other of the ports when the selected intermediate contracted position is reached. 5. The assembly of claim 1 , wherein the means for evacuating air comprises: an axially protruding tube mounted in the first member evacuation passage port offset from the axis and having an open tip axially spaced from the sleeve evacuation passage port while the bellows is in the extended position; and wherein the open tip of the tube sealingly engages the sleeve evacuation passage port when the selected intermediate contracted position of the bellows is reached. 6. The assembly of claim 1 , wherein: the bellows comprises an outer bellows with a fixed end mounted to the first end member and a floating end that moves axially relative to the fixed end; the sleeve comprises an interconnect member with an inner end located within the outer bellows and an outer end secured to the floating end of the outer bellows; and the assembly further comprises: an inner bellows having an inner end secured to the inner end of the interconnect member; and wherein the sleeve evacuation passage is isolated from an exterior of the inner bellows. 7. An electrical submersible pump assembly, comprising: a pump; a motor operatively coupled to the pump for driving the pump; a seal section having a longitudinal axis and coupled to the motor, comprising: first and second end members spaced axially apart from each other, an outer bellows having a fixed end mounted to the first end member and a floating end that moves axially relative to the fixed end; a rigid, tubular interconnect member having an inner end within the outer bellows and an outer end fixed to the floating end of the outer bellows, the interconnect member having a cylindrical side wall extending between the inner and outer ends of the interconnect member, concentric with the axis, defining an interconnect annulus between the side wall of the interconnect member and the outer bellows, the interconnect annulus having a closed outer end and an open inner end; an inner bellows having a floating end secured to the inner end of the interconnect member and a fixed end secured to the second end member; an interconnect evacuation passage extending axially within the side wall of the interconnect member and offset from the axis, the interconnect evacuation passage having an interconnect evacuation passage ort at the inner end of the interconnect member that is offset from the axis, the interconnect evacuation passage having an interconnect evacuation passage opening in the side wall of the interconnect member that opens to the interconnect annulus adjacent the floating end of the outer bellows; a first end member evacuation passage extending from an exterior surface of the first end member to a first end member evacuation passage port on an end of the first end member that faces the inner end of the interconnect member, the first end member evacuation passage port being offset from the axis and aligned with the interconnect member evacuation passage port; a tube offset from the axis, the tube joining and protruding axially from one of the ports toward the other of the ports; the tube having an open tip that extends sealingly into the other of the ports while the outer bellows is in a contracted position and is disengaged from the other of the ports while the outer bellows is in an extended position; wherein the extended position defines a first flow path from the inner end of the interconnect annulus to the first end member evacuation passage and a second flow path through the interconnect member evacuation passage to the first end member evacuation passage to evacuate air from the inner and outer bellows prior to filling with motor lubricant; and the contracted position closes the first flow path and leaves the second flow path open. 8. The assembly of claim 7 , further comprising: a rotatable drive shaft extending through the first and second end members; a guide sleeve concentric with the axis and surrounding the drive shaft, the guide sleeve extending between the first and second end members and having a guide sleeve opening in fluid communication with an interior of the inner bellows; and wherein the tube is located radially outward from the guide sleeve. 9. The assembly of claim 7 , wherein: the outer bellows has an intermediate contracted position between the contracted and the extended positions; and the up of the tube is in sealing engagement with the other of the ports while the outer bellows is in the intermediate contracted position. 10. The assembly of claim 7 , wherein: the tube joins and protrudes axially from the first end member evacuation passage port. 11. The assembly according to claim 7 , wherein: the interconnect member evacuation passage has an axial dimension from the interconnect member evacuation passage port to the interconnect evacuation pay opening; and the tube protrudes axially from said one of the ports a distance less than the axial dimension. 12. The assembly according to claim 7 , wherein the interconnect evacuation passage comprises an axial portion parallel