초록 ▼

A bearing retainer for a valve having an internally mounted stem and valve member with a trunnion and a bearing positioned thereabout is disclosed. The bearing retainer has a retainer body having a bearing receiving opening extending from a first side to an opposed second side and a stem receiving s

A bearing retainer for a valve having an internally mounted stem and valve member with a trunnion and a bearing positioned thereabout is disclosed. The bearing retainer has a retainer body having a bearing receiving opening extending from a first side to an opposed second side and a stem receiving slot formed in the first side thereof in open communication with the bearing receiving opening. The retainer body is disposable about the bearing, and the retainer body is configured such that the retainer body is rotatable about the trunnion upon the valve member, the bearing, and the bearing retainer being positioned in the valve chamber with the stem engaged with the valve member.

대표청구항 ▼

What is claimed: 1. A valve, comprising: a valve body having a valve chamber and an inlet passage and an outlet passage in communication with the valve chamber; a valve member positioned in the valve chamber and movable between an open position and a closed position, the valve member having a flow

What is claimed: 1. A valve, comprising: a valve body having a valve chamber and an inlet passage and an outlet passage in communication with the valve chamber; a valve member positioned in the valve chamber and movable between an open position and a closed position, the valve member having a flow passage formed therethrough for providing fluid communication between the inlet passage and the outlet passage of the valve body when the valve member is in the open position, the valve member having at least one trunnion extending therefrom; a stem having one end positioned in the valve chamber and engaged with the valve member and another end extending from the valve body, the stem rotatable to cause the valve member to move between the open position and the closed position; a bearing disposed about the trunnion; and a bearing retainer disposed about the bearing, the bearing retainer having a retainer body with a bearing receiving opening extending from a first side to an opposed second side and a stem receiving slot formed in the first side thereof in open communication with the bearing receiving opening, the retainer body configured such that the retainer body is rotatable within the valve chamber of the valve body about the trunnion upon the valve member, the bearing, and the bearing retainer being positioned in the valve chamber with the stem engaged with the valve member. 2. The valve of claim 1 wherein the retainer body is rotatable through an angle of approximately 90 degrees. 3. The valve of claim 1 wherein the retainer body has a frusto-conical surface formed between the first end and the second end extending substantially circumferentially about the bearing receiving opening. 4. The valve of claim 3 wherein the frusto-conical surface of the bearing retainer is a spherical, frusto-conical surface. 5. The valve of claim 1 wherein the retainer body has a first planar side intersecting the frusto-conical surface and extending substantially parallel to a plane defined by the intersection of the axis of the bearing receiving opening and a longitudinal axis of the stem receiving slot and an opposing second planar side. 6. The valve of claim 5 wherein the valve further comprises a first end adapter connectable to one end of the valve body and a second end adapter connectable to another end of the valve body, and wherein the bearing retainer further comprises: a first spacer positioned between the first planar end of the bearing retainer and the first end adapter such that the first spacer engages the first end adapter and the first end of the bearing retainer; and a second spacer positioned between the second planar end of the bearing retainer and the second end adapter such that the second spacer engages the second end adapter and the second end of the bearing retainer. 7. The valve of claim 6 wherein the first spacer is removably attached to the first planar end of the bearing retainer and the second spacer is removably attached to the second planar end of the bearing retainer. 8. The valve of claim 5 wherein the valve further comprises an end adapter connectable to one end of the valve body, and wherein the bearing retainer further comprises: a ring spacer positionable between the bearing retainer and the valve body, the ring spacer having a ring portion and a spacer portion, the ring portion having a first surface, an opposing second surface, an outer peripheral edge, and inner peripheral edge, the spacer portion extending from the first surface of the ring portion and having an outer planar surface adapted to abuttingly engage the first planar end of the bearing retainer, the ring spacer being rotatable within the valve chamber between a non-interfering position and a spacer position, in the non-interfering position the ring spacer positioned within the valve chamber to permit rotation of the retainer body and in the spacer position the ring spacer positioned between the first planar end of the bearing retainer and an opposing surface of the valve body. 9. The valve of claim 8 further comprising: a spacer positioned between the second planar end of the bearing retainer and the end adapter such that the spacer engages the end adapter and the second planar end of the bearing retainer. 10. The valve of claim 9 wherein the spacer is removably attached to the second planar end of the bearing retainer. 11. The valve of claim 5 wherein the retainer body further includes a third planar side intersecting the frusto-conical surface extending substantially perpendicular to the plane defined by the intersection of the axis of the bearing receiving opening and the longitudinal axis of the stem receiving slot and an opposing fourth planar side. 12. A bearing retainer for a valve having an internally mounted stem and valve member with a trunnion and a bearing positioned thereabout, the bearing retainer comprising: a retainer body having a bearing receiving opening extending from a first side to an opposed second side and a stem receiving slot formed in the first side thereof in open communication with the bearing receiving opening, the retainer body disposable about the bearing and the retainer body configured such that the retainer body is rotatable about the trunnion upon the valve member, the bearing, and the bearing retainer being positioned in the valve chamber with the stem engaged with the valve member. 13. The bearing retainer of claim 12 wherein the retainer body is rotatable through an angle of approximately 90 degrees. 14. The bearing retainer of claim 12 wherein the retainer body has a frusto-conical surface formed between the first end and the second end extending substantially circumferentially about the bearing receiving opening. 15. The bearing retainer of claim 14 wherein the frusto-conical surface of the bearing retainer is a spherical, frusto-conical surface. 16. The bearing retainer of claim 12 wherein the retainer body has a first planar side intersecting the frusto-conical surface and extending substantially parallel to a plane defined by the intersection of the axis of the bearing receiving opening and a longitudinal axis of the stem receiving slot and an opposing second planar side. 17. The bearing retainer of claim 16 further comprising: a first spacer positionable between the first planar end of the retainer body and a first end adapter of the valve such that the first spacer engages the first end adapter and the first end of the retainer body; and a second spacer positionable between the second planar end of the retainer body and a second end adapter of the valve such that the second spacer engages the second end adapter and the second end of the retainer body. 18. The bearing retainer of claim 17 wherein the first spacer is removably attached to the first planar end of the retainer body and the second spacer is removably attached to the second planar end of the retainer body. 19. The bearing retainer of claim 16 further comprising: a ring spacer positionable between the retainer body and a body of the valve, the ring spacer having a ring portion and a spacer portion, the ring portion having a first surface, an opposing second surface, an outer peripheral edge, and inner peripheral edge, the spacer portion extending from the first surface of the ring portion and having an outer planar surface adapted to abuttingly engage the first planar end of the retainer body, the ring spacer being rotatable within the body of the valve between a non-interfering position and a spacer position, in the non-interfering position the ring spacer positioned within the body of the valve to permit rotation of the retainer body and in the spacer position the ring spacer positioned between the first planar end of the bearing retainer and an opposing surface of the body of the valve. 20. The bearing retainer of claim 19 further comprising: a spacer positionable between the second planar end of the retainer body and an end adapter such that the spacer engages the end adapter and the second planar end of the bearing retainer. 21. The bearing retainer of claim 20 wherein the spacer is removably attached to the second planar end of the retainer body. 22. The bearing retainer of claim 16 wherein retainer body further includes a third planar side intersecting the frusto-conical surface and extending substantially perpendicular to the plane defined by the intersection of the axis of the bearing receiving opening and the longitudinal axis of the stem receiving slot and an opposing fourth planar side. 23. A method of assembling a valve, comprising: providing a valve body having a valve chamber and an inlet passage and an outlet passage in communication with the valve chamber; mounting internally a stem through a stem bore formed through the valve body so that the stem has a first end positioned in the valve chamber and a second end extending from the valve body; providing a valve member having a flow passage formed therethrough, the valve member having at least one trunnion extending therefrom; disposing a bearing about the trunnion; disposing a bearing retainer about the bearing, the bearing retainer having a retainer body with a bearing receiving opening extending from a first side to an opposed second side and a stem receiving slot formed in the first side thereof in open communication with the bearing receiving opening; aligning the slots of the valve member, the bearing, and the retainer body with the first end of the stem; inserting the combination of the valve member, the bearing, and the bearing retainer into the valve chamber so that the retainer body and the bearing move past the first end of the stem and the stem is matingly engaged with the slot of the trunnion; and rotating the retainer body about the trunnion so that a longitudinal axis of the stem receiving slot of the retainer body is in a non-parallel relationship with the longitudinal flow axis of the valve body. 24. The method of claim 23 further comprising rotating the retainer body approximately 90 degrees so that the longitudinal axis of the stem receiving slot is perpendicular to the longitudinal flow axis. 25. The method of claim 23 wherein the retainer body has a first planar end extending substantially parallel to a plane defined by the intersection of the longitudinal axis of the stem receiving slot and the axis of the bearing receiving opening and an opposing second planar side, and wherein the method further comprises: positioning a first spacer adjacent the first planar end of the retainer body; connecting a first end adapter to the valve body such that the first spacer engages the first end adapter and the first end of the bearing retainer; positioning a second spacer adjacent the second planar end of the retainer body; and connecting a second end adapter to the valve body such that the second spacer engages the second end adapter and the second end of the bearing retainer. 26. The method of claim 23 wherein the retainer body has a first planar end extending substantially parallel to a plane defined by the intersection of the longitudinal axis of the stem receiving slot and the axis of the bearing receiving opening and an opposing second planar side, and wherein the method further comprises: positioning a ring spacer in the valve chamber prior to inserting the combination of the valve member, the bearing, and the retainer body so that ring spacer is in a non-interfering position relative to the retainer body to permit rotation of the retainer body, the ring spacer having a ring portion and a spacer portion, the ring member having a first surface, an opposing second surface, an outer peripheral edge, and inner peripheral edge, the spacer portion extending from the first surface of the ring portion and having an outer planar surface adapted to abuttingly engage the first planar end of the retainer body; and rotating the ring spacer subsequent to rotating the retainer body to position the spacer portion of the ring spacer between the first planar end of the bearing retainer and an opposing surface of the valve body. 27. The method of claim 26 further comprising: positioning a spacer adjacent the second planar end of the retainer body; and connecting an end adapter to the valve body such that the spacer engages the end adapter and the second planar end of the bearing retainer.