Circuit interrupters with air trap regions in fluid reservoirs

I claim: 1. A circuit interrupting device, comprising: a solid insulation housing that defines a first external opening and a first cavity extending into the solid insulation housing from the first external opening; a disconnect having a moving contact in selective engagement with a stationary contact in the first cavity; a window secured to the solid insulation housing at the first external opening; and an insulating fluid disposed within the first cavity, and wherein at least one of the window and the solid insulation housing is configured to form a trap region that is in fluid communication with the first cavity and is configured to trap air bubbles in the insulating fluid. 2. The circuit interrupting device of claim 1 , wherein the window and the solid insulation housing form a groove at a periphery of the window as the trap region. 3. The circuit interrupting device of claim 2 , wherein the window has an outer flange portion that defines a first sidewall of the groove, and wherein the solid insulation housing has a recess around the periphery of the first external opening that defines a second sidewall of the groove. 4. The circuit interrupting device of claim 1 , wherein the trap region is disposed in a portion of the first cavity that is not visible through the window from an outside of the solid insulation housing. 5. The circuit interrupting device of claim 1 , further comprising a sealing member disposed between the solid insulation housing and the window, wherein the sealing member defines an outer portion of the trap region. 6. The circuit interrupting device of claim 1 , wherein the window has an outer flange portion and an inner viewing portion that is offset from the outer flange portion and extends through the first external opening to form an inner portion of the trap region. 7. The circuit interrupting device of claim 6 , further comprising a plug, wherein the outer flange portion of the window defines an aperture in which the plug is disposed. 8. The circuit interrupting device of claim 7 , further comprising a first plug seal member disposed on the plug and a second plug seal member disposed on the plug, wherein the second plug seal member is sealed against an inner wall of the aperture and the first plug seal member is sealed against an edge of the aperture within the trap region. 9. The circuit interrupting device of claim 1 , further comprising a window retainer member secured to the solid insulation housing, wherein an outer flange portion of the window is disposed between and sealed to each of the window retainer member and the solid insulation housing. 10. The circuit interrupting device of claim 1 , further comprising an expansion seal member in sliding engagement with the solid insulation housing and having a first side and a second side, wherein the first side is in fluid communication with the first cavity and the second side is in fluid communication with an external environment of the circuit interrupting device for accommodating thermal expansion and contraction of the insulating fluid. 11. The circuit interrupting device of claim 10 , further comprising a spring seat and a spring biased between the spring seat and the second side of the expansion seal member, and wherein the spring seat is configured to release from the circuit interrupting device in response to high pressure in the first cavity due to vaporization of the insulating fluid during a fault in the disconnect. 12. The circuit interrupting device of claim 11 , further comprising a spring seat retaining member and a window retainer member, wherein the window retainer member secures the window to the solid insulation housing with a first fastening strength, and wherein the spring seat retaining member secures the spring seat to the solid insulation housing with a second fastening strength that is less than the first fastening strength. 13. The circuit interrupting device of claim 1 , further comprising a temperature compensation assembly configured to release from a fastened position in the solid insulation housing and expel vaporized insulation fluid away from a viewing direction in which a viewer is able to see the moving contact of the disconnect through the window. 14. The circuit interrupting device of claim 1 , further comprising a temperature compensation assembly configured to maintain a pressure in the insulating fluid for restricting formation of air bubbles in the insulating fluid. 15. A power distribution switchgear assembly, comprising: a solid insulation housing that defines a first external opening and a first cavity extending into the solid insulation housing from the first external opening; a disconnect having a moving contact in selective engagement with a stationary contact in the first cavity; a window secured to the solid insulation housing at the first external opening; and an insulating fluid disposed within the first cavity, and wherein the window and the solid insulation housing form a groove at a periphery of the window to form a trap region that is in fluid communication with the first cavity and is configured to trap air bubbles in the insulating fluid, wherein the trap region is disposed in a portion of the first cavity that is not visible through the window from an outside of the solid insulation housing. 16. The power distribution switchgear assembly of claim 15 , wherein the window has an outer flange portion that defines a first sidewall of the groove, and wherein the solid insulation housing has a recess around the periphery of the first external opening that defines a second sidewall of the groove. 17. The power distribution switchgear assembly of claim 15 , further comprising an expansion seal member, a spring seat, and a spring, the expansion seal member in sliding engagement with the solid insulation housing and having a first side and a second side, wherein the first side is in fluid communication with the first cavity and the second side is in fluid communication with an external environment of the power distribution switchgear assembly for accommodating thermal expansion and contraction of the insulating fluid, and wherein the spring biased between the spring seat and the second side of the expansion seal member, and wherein the spring seat is configured to release from the solid insulation housing in response to high pressure in the first cavity due to vaporization of the insulating fluid during a fault in the disconnect. 18. The power distribution switchgear assembly of claim 17 , further comprising a spring seat retaining member and a window retainer member, wherein the window retainer member secures the window to the solid insulation housing with a first fastening strength, and wherein the spring seat retaining member secures the spring seat to the solid insulation housing with a second fastening strength that is less than the first fastening strength. 19. The power distribution switchgear assembly of claim 15 , further comprising a temperature compensation assembly configured to release from a fastened position in the solid insulation housing and to expel vaporized insulation fluid away from a viewing direction in which a viewer is able to see the moving contact of the disconnect through the window. 20. A pole unit for power distribution, the pole unit comprising: a solid insulation housing that defines a first external opening and a first cavity extending into the solid insulation housing from the first external opening; a disconnect having a moving contact in selective engagement w