초록 ▼

A compression latch with a folding handle for selectively holding a door closed, includes. The latch includes a housing with a cup portion for receiving the handle in the folded down position such that the projection of the latch handle above the exterior surface of the door is minimized in the fold

A compression latch with a folding handle for selectively holding a door closed, includes. The latch includes a housing with a cup portion for receiving the handle in the folded down position such that the projection of the latch handle above the exterior surface of the door is minimized in the folded-down position. The handle functions to move a pawl in a combination of rotational and rectilinear movements as the pawl is moved between latched and unlatched positions.

대표청구항 ▼

The invention claimed is: 1. A compression latch mechanism for releasably securing a first member to a second member, the compression latch mechanism comprising: a housing adapted for attachment to the first member; a shaft having a longitudinal axis, a first end and a second end, said shaft being

The invention claimed is: 1. A compression latch mechanism for releasably securing a first member to a second member, the compression latch mechanism comprising: a housing adapted for attachment to the first member; a shaft having a longitudinal axis, a first end and a second end, said shaft being supported for rotation about said longitudinal axis and for rectilinear motion in a direction coincident with said longitudinal axis, said shaft moving between a latched position and an unlatched position as the compression latch mechanism is operated between a latched configuration and an unlatched configuration, operation of the compression latch mechanism from said latched configuration to said unlatched configuration and then back to said latched configuration constituting an operating cycle of the compression latch mechanism; a kickstand pivotally connected to said shaft proximate said first end of said shaft, said kick stand having at least one bearing surface and at least one relief notch, said kickstand moving pivotally relative to said shaft about a pivot axis fixed in position relative to said shaft during at least a portion of said operating cycle of the compression latch mechanism; a bearing plate positioned between said first end of said shaft and said second end of said shaft, said bearing plate being supported by said housing and having at least a raised bearing surface and at least a lower bearing surface; a handle pivotally connected to said shaft proximate said first end of said shaft thereby defining a pivotal connection, said handle moving pivotally relative to said shaft about said pivot axis as said handle is moved between a folded-down position and a first raised position, said handle having a kickstand contact surface, said kickstand and said handle being pivotally movable relative to one another over a predetermined range of pivotal movement, said handle being capable of being turned to a second raised position to place the compression latch mechanism in said unlatched configuration, said handle having an underside and a grasping portion; first biasing means for biasing said shaft such that said second end of said shaft tends to project to a greater distance from said housing under bias imparted to said shaft by said first biasing means; second biasing means for biasing said handle from said folded-down position toward an intermediate position between said folded-down position and said first raised position and for biasing said kickstand into a latched position; and catch means for selectively securing said handle in said folded-down position, wherein with the compression latch mechanism in the latched configuration said handle is secured in said folded down position and said shaft is in said latched position and is held there by said bearing surface of said kickstand being positioned between said first end of said shaft and said raised bearing surface, wherein when said catch is operated by a user to release said handle, said handle moves to said intermediate position under bias provided by said second biasing means without affecting the position of said kickstand and said shaft, wherein as said handle is moved from said intermediate position toward said first raised position by a user, said handle moves said kickstand pivotally relative to said shaft, through contact between said first kickstand contact surface of said handle and said kickstand, until said relief notch registers with said raised bearing surface whereupon said shaft moves rectilinearly in a direction coincident with said longitudinal axis under the bias of said first biasing means such that said second end of said shaft moves toward an intermediate extended position, intermediate said latched position and said unlatched position, where said second end of said shaft projects to its maximum distance from said housing, and wherein subsequently said handle can be turned from said first raised position to said second raised position by the user to rotate said shaft about its longitudinal axis to said unlatched position. 2. The compression latch mechanism according to claim 1, wherein the compression latch mechanism further comprises a first bearing surface provided for contacting said underside of said handle, wherein when the compression latch mechanism is in said unlatched configuration said handle is in said second raised position and said shaft is in said unlatched position, said handle can be turned from said second raised position to said first raised position by the user to rotate said shaft about its longitudinal axis from said unlatched position to said intermediate extended position, wherein as said handle is moved from said first raised position toward said folded-down position by the user, a portion of said underside of said handle located intermediate said grasping portion and said pivotal connection between said handle and said shaft contacts said first bearing surface such that said first bearing surface defines a fulcrum point and said handle acts as a lever to lift said kickstand and said first end of said shaft away from said bearing plate to thereby increasingly elevate said kickstand and said first end of said shaft above said bearing plate, wherein once said raised bearing surface of said bearing plate completely clears said relief notch, said kickstand moves pivotally relative to said shaft under a biasing force provided by said second biasing means such that said bearing surface of said kickstand is positioned between said first end of said shaft and said raised bearing surface to thereby maintain said shaft in said latched position, and wherein upon said handle reaching said folded-down position, said catch means secures said handle in said folded-down position. 3. The compression latch mechanism according to claim 2, wherein the first member is a door and the second member is a doorframe, the compression latch mechanism further comprising a pawl mounted to said shaft intermediate said second end of said shaft and said housing, and said pawl mounted to said shaft such that at least a portion of said pawl is positioned behind a structure fixed to or forming a part of the door-frame when the compression latch mechanism is mounted to the door and said shaft is in one of said latched position and said intermediate extended position, said pawl moving between latched and unlatched positions corresponding to latched and unlatched positions of said shaft respectively, said pawl moving with said shaft as a unit. 4. The compression latch mechanism according to claim 3, wherein a compressive force tending to draw the door and the doorframe together is applied to the door and the doorframe as the handle is moved from the first raised position to the folded-down position to thereby move said shaft from said intermediate extended position to said latched position. 5. The compression latch mechanism according to claim 4, wherein said pawl has first and second holes positioned on either side of said shaft, each of said first and second holes having a center, with said shaft being positioned at about the midpoint of a line extending from said center of said first hole to said center of said second hole, the compression latch mechanism further comprising: a first rod pivotally attached to said pawl by a fastener engaging said first hole, said first rod supporting a first roller at an end thereof distal from said pawl, said first rod causing said first roller to move substantially rectilinearly responsive to rotation of said pawl; and a second rod pivotally attached to said pawl by a fastener engaging said second hole, said second rod supporting a second roller at an end thereof distal from said pawl, said second rod causing said second roller to move substantially rectilinearly responsive to rotation of said pawl, wherein said first rod causes said first roller to move behind the doorframe when said pawl is moved to said latched position, at a first location spaced apart from the location where said pawl is positioned behind the doorframe, and said first rod withdraws said first roller from behind the doorframe when said pawl is rotated to the unlatched position, wherein said second rod causes said second roller to move behind the doorframe when said pawl is moved to said latched position, at a second location spaced apart from the location where said pawl is positioned behind the doorframe, and said second rod withdraws said second roller from behind the doorframe when said pawl is rotated to the unlatched position, to thereby provide for multipoint latching of the door to the doorframe. 6. The compression latch mechanism according to claim 5, wherein the door has a back side, and wherein said first rod has a first slot having a first pair of parallel elongated sides and said second rod has a second slot having a second pair of parallel elongated sides, the compression latch mechanism further comprising: a first rod guide in the form of a sleeve having a threaded bore and a pair of annular flanges that are spaced apart from one another, said first pair of parallel elongated sides being positioned between said pair of annular flanges of said first rod guide with a portion of said sleeve of said first rod guide extending through said first slot to thereby guide the movements of said first rod, said first rod guide being capable of engaging a first threaded post projecting from the back side of the door by a threaded engagement, said first roller having a grip defined by the distance between said first roller and the plane defined by the back side of the door in a direction perpendicular to the plane defined by the back side of the door, the threaded engagement between said first rod guide and the first threaded post allowing for adjustment of the grip of said first roller; and a second rod guide in the form of a sleeve having a threaded bore and a pair of annular flanges that are spaced apart from one another, said second pair of parallel elongated sides being positioned between said pair of annular flanges of said second rod guide with a portion of said sleeve of said second rod guide extending through said second slot to thereby guide the movements of said second rod, said second rod guide being capable of engaging a second threaded post projecting from the back side of the door by a threaded engagement, said second roller having a grip defined by the distance between said second roller and the plane defined by the back side of the door in a direction perpendicular to the plane defined by the back side of the door, the threaded engagement between said second rod guide and the second threaded post allowing for adjustment of the grip of said second roller. 7. The compression latch mechanism according to claim 5, wherein the door has a back side, wherein said first roller is supported by a first interchangeable rod end stamping connected to said first rod, said first roller having a grip defined by the distance between said first roller and the plane defined by the back side of the door in a direction perpendicular to the plane defined by the back side of the door, said first interchangeable rod end stamping being replaced by another interchangeable rod end stamping to vary the grip of said first roller, and wherein said second roller is supported by a second interchangeable rod end stamping connected to said second rod, said second roller having a grip defined by the distance between said second roller and the plane defined by the back side of the door in a direction perpendicular to the plane defined by the back side of the door, said second interchangeable rod end stamping being replaced by another interchangeable rod end stamping to vary the grip of said second roller. 8. The compression latch mechanism according to claim 2, wherein said handle has at least one cam lobe defining a handle cam surface, said handle cam surface contacting said lower bearing surface of said bearing plate to lift said first end of said shaft away from said lower bearing surface of said bearing plate in response to movement of said handle toward said folded-down position. 9. The compression latch mechanism according to claim 2, wherein said housing has a sleeve through which said shaft passes and said sleeve has a pair of slots at an end thereof closest to said second end of said shaft, the compression latch mechanism further comprising: lateral projections projecting from either side of said shaft or from either side of a bushing supported by said shaft, said lateral projections registering with said pair of slots when said handle is at or between said first raised position and said folded-down position. 10. The compression latch mechanism according to claim 2, wherein said bearing plate is provided with a first raised bearing surface and a second raised bearing surface, wherein said first bearing surface provided for contacting said underside of said handle is formed by said second raised bearing surface, wherein as said handle is moved from said first raised position toward said folded-down position by the user, a portion of said underside of said handle located intermediate said grasping portion and said pivotal connection between said handle and said shaft contacts said second raised bearing surface such that said second raised bearing surface defines a fulcrum point and said handle acts as a lever to lift said kickstand and said first end of said shaft away from said bearing plate to thereby increasingly elevate said kickstand and said first end of said shaft above said lower bearing surface of said bearing plate, and wherein once said first raised bearing surface of said bearing plate completely clears said relief notch, said kickstand moves pivotally relative to said shaft under a biasing force provided by said second biasing means such that said bearing surface of said kickstand is positioned between said first end of said shaft and said first raised bearing surface to thereby maintain said shaft in said latched position. 11. The compression latch mechanism according to claim 10, wherein the first member is a door and the second member is a doorframe, the compression latch mechanism further comprising a pawl mounted to said shaft intermediate said second end of said shaft and said housing, and said pawl mounted to said shaft such that at least a portion of said pawl is positioned behind a structure fixed to or forming a part of the doorframe when the compression latch mechanism is mounted to the door and said shaft is in one of said latched position and said intermediate extended position, said pawl moving between latched and unlatched positions corresponding to latched and unlatched positions of said shaft respectively, said pawl moving with said shaft as a unit. 12. The compression latch mechanism according to claim 11, wherein a compressive force tending to draw the door and the doorframe together is applied to the door and the doorframe as the handle is moved from the first raised position to the folded-down position to thereby move said shaft from said intermediate extended position to said latched position. 13. The compression latch mechanism according to claim 12, the compression latch mechanism further comprising: a rod actuator positioned on said shaft intermediate said pawl and said housing, said rod actuator moving rotationally in response to rotational movement of said shaft about said longitudinal axis of said shaft, said shaft being capable of being moved rectilinearly in the direction of said longitudinal axis of said shaft relative to said rod actuator, said rod actuator having a first hole to allow said shaft to extend through said rod actuator, said rod actuator having second and third holes positioned on either side of said shaft; a first rod pivotally attached to said rod actuator by a fastener engaging said second hole, said first rod supporting a first roller at an end thereof distal from said rod actuator, said first rod causing said first roller to move into or out of engagement with a structure fixed to or forming a part of the doorframe in response to rotation of said shaft; and a second rod pivotally attached to said rod actuator by a fastener engaging said third hole, said second rod supporting a second roller at an end thereof distal from said rod actuator, said second rod causing said second roller to move into or out of engagement with a structure fixed to or forming a part of the doorframe in response to rotation of said shaft, to thereby provide for multipoint latching of the door to the doorframe. 14. The compression latch mechanism according to claim 13, wherein the door has a back side, and wherein said first rod has a first slot having a first pair of parallel elongated sides and said second rod has a second slot having a second pair of parallel elongated sides, the compression latch mechanism further comprising: a first rod guide in the form of a sleeve having a threaded bore and a pair of annular flanges that are spaced apart from one another, said first pair of parallel elongated sides being positioned between said pair of annular flanges of said first rod guide with a portion of said sleeve of said first rod guide extending through said first slot to thereby guide the movements of said first rod, said first rod guide being capable of engaging a first threaded post projecting from the back side of the door by a threaded engagement, said first roller having a grip defined by the distance between said first roller and the plane defined by the back side of the door in a direction perpendicular to the plane defined by the back side of the door, the threaded engagement between said first rod guide and the first threaded post allowing for adjustment of the grip of said first roller; and a second rod guide in the form of a sleeve having a threaded bore and a pair of annular flanges that are spaced apart from one another, said second pair of parallel elongated sides being positioned between said pair of annular flanges of said second rod guide with a portion of said sleeve of said second rod guide extending through said second slot to thereby guide the movements of said second rod, said second rod guide being capable of engaging a second threaded post projecting from the back side of the door by a threaded engagement, said second roller having a grip defined by the distance between said second roller and the plane defined by the back side of the door in a direction perpendicular to the plane defined by the back side of the door, the threaded engagement between said second rod guide and the second threaded post allowing for adjustment of the grip of said second roller. 15. The compression latch mechanism according to claim 13, wherein the door has a back side, wherein said first roller is supported by a first interchangeable rod end stamping connected to said first rod, said first roller having a grip defined by the distance between said first roller and the plane defined by the back side of the door in a direction perpendicular to the plane defined by the back side of the door, said first interchangeable rod end stamping being replaced by another interchangeable rod end stamping to vary the grip of said first roller, and wherein said second roller is supported by a second interchangeable rod end stamping connected to said second rod, said second roller having a grip defined by the distance between said second roller and the plane defined by the back side of the door in a direction perpendicular to the plane defined by the back side of the door, said second interchangeable rod end stamping being replaced by another interchangeable rod end stamping to vary the grip of said second roller. 16. The compression latch mechanism according to claim 10, wherein said handle has at least one cam lobe defining a handle cam surface, said handle cam surface contacting said lower bearing surface of said bearing plate to lift said first end of said shaft away from said bearing plate in response to movement of said handle toward said folded-down position. 17. The compression latch mechanism according to claim 10, wherein said housing has a sleeve through which said shaft passes and said sleeve has a plurality of ribs at an end thereof closest to said second end of said shaft, the compression latch mechanism further comprising: a bushing supported by said shaft, said bushing having a plurality of slots, said plurality of slots registering with respective ones of said plurality of ribs when said handle is at or between said first raised position and said folded-down position. 18. The compression latch mechanism according to claim 13, wherein said shaft has a portion with a non-circular cross section, the compression latch mechanism further comprising: an actuator hub; and an actuator hub housing provided at a fixed location relative to said housing adapted for attachment to the first member, said actuator hub fitting inside said actuator hub housing and being rotationally supported therein, said actuator hub housing having openings on both sides such that said shaft extends through said actuator hub housing without interference from said actuator hub housing, said actuator hub having a center hole that registers with said first hole of said rod actuator and allows said shaft to extend through said actuator hub, said shaft being capable of being moved rectilinearly in the direction of its longitudinal axis relative to said actuator hub without interference from said actuator hub, said actuator hub engaging said rod actuator such that said actuator hub and said rod actuator rotate as a unit, wherein one or both of said center hole of said actuator hub and said first hole of said rod actuator is shaped to correspond to said non-circular cross section of said portion of said shaft such that said actuator hub and said rod actuator rotate with and in response to rotation of said shaft about said longitudinal axis of said shaft, while said shaft remains capable of being moved rectilinearly in said direction coincident with said longitudinal of said shaft relative to said actuator hub and said rod actuator without interference from either said actuator hub or said rod actuator.