The present disclosure relates to a juvenile playyard, and particularly to a collapsible frame for a juvenile playyard. More particularly, the present disclosure relates to a collapsible playyard frame including top rail segments that fold up when the playyard frame is collapsed.
A playyard in accordance with the present disclosure includes a collapsible frame. The collapsible frame includes a multi-segment top rail and a rail support coupled to the top rail and adapted to support a playyard floor.
In illustrative embodiments, a playyard top rail includes a left rail segment and a right rail segment. Both the left rail segment and the right rail segment are coupled to a bracket for pivotable movement relative to the bracket. The rail segments move relative to the bracket from an inline-use position to a folded-storage position when a playyard including the playyard top rail is collapsed for storage or transportation.
In illustrative embodiments, the playyard top rails further includes a rail segment lock associated with the left and right rail segments. The rail segment lock moves from a locked position, blocking the left and right rail segments from moving to the folded-storage position, to an unlocked position, allowing the left and right rail segments to move to the folded-storage position. The rail segment lock is moved to the unlocked position by a user lifting the bracket, pressing a blocker-mover button included in the rail segment lock, and dropping the bracket while continuing to press the blocker-mover button.
In illustrative embodiments, the playyard top rail also includes visual means for indicating the position of the rail segment lock so that a caregiver can quickly determine if the rail segment lock is in the locked or unlocked position. The visual means includes a locked indicator coupled to the rail segment lock and an unlocked indicator coupled to the bracket. The locked indicator is illustratively green in color. It is exposed when the rail segment lock is in the locked position. The unlocked indicator is illustratively red in color and is exposed when the rail segment lock is in the unlocked position.
Additional features of the disclosure will become apparent to those skilled in the art upon consideration of illustrative embodiments exemplifying the best mode of carrying out the disclosure as presently perceived.
The detailed description particularly refers to the accompanying figures in which:
Playyard 10 includes a collapsible frame 12, fabric frame cover 14, and removable floor mat 16. Frame cover 14 is made of sturdy fabric and netting material and is foldable to enable frame 12 to be moved easily from an erected configuration shown in
Collapsible frame 12 includes a rail support 90 configured to support a playyard floor (illustratively floor mat 16) and foldable top rails 24, 26, 28, and 30. Rail support 90 includes four corner legs 18, a corner piece 20 at the top end of each corner leg 18, and a corner foot 22 at the bottom end of each corner leg 18. Top rails 24, 26, 28, and 30 interconnect each pair of adjacent corner pieces 20.
Each foldable top rail 24, 26, 28, and 30 includes a central rail segment 94, a left rail segment 15L, a right rail segment 15R, and a rail segment lock 25 as shown in
Each top rail 24, 26, 28, 30 is substantially similar and the following description of top rail 24 is applicable to each top rail 24, 26, 28, 30. Bracket 33 of top rail 24 is U-shaped and is formed from a bent monolithic steel sheet as shown in
Bracket 33 of the illustrative embodiment supports rail segment lock 25 and is formed to include a back wall 41, a front wall 43, and a top wall 45 as shown, for example, in
Left rail segment 15L is coupled to bracket 33 to pivot relative to bracket 33 about left pivot axis 35A as shown in
Rail segment lock 25 of the illustrative embodiment includes a rail-motion blocker 61, a blocker-mover button 79, and a biasing blocker-biasing spring 67 as shown in
Rail-motion blocker 61 is coupled to bracket 33 by a pair of pins 104, 105. A pair of spacer sleeves 63, 65 wrap around pins 104, 105 and engage button-support stem 69 of rail-motion blocker 61 to bias rail-motion blocker 61 away from back wall 41 of bracket 33. Blocker-mover button 79 is coupled to rail-motion blocker 61 by a screw 101. Blocker-biasing spring 67 cooperates with spacer sleeves 63, 65 to bias rail-motion blocker 61 away from back wall 41 of bracket 33.
Top rail 24 also includes a lock status indicator assembly 29 configured to inform a user visually of rail segment lock 25 position. Lock status indicator assembly 29 illustratively includes a bezel 75, an unlocked indicator 81, and a locked indicator 83 as shown in
Unlocked indicator 81 in the illustrative embodiment is formed from a plastics material in a red color. Locked indicator 83 in the illustrative embodiment is formed from a plastics material in a green color. In other embodiments, indicators 81, 83 may be embossed or marked with words indicating unlocked and locked. In other embodiments, indicators 81, 83 may be formed with different textures indicating unlocked and locked condition.
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Rail support 90 also includes a rail mount 32, a foot 34 for elevating rail mount 32, and a support rail 36, 38, 40, or 42 interconnecting rail mount 32 and each of corner feet 22 as suggested in
Floor mat 16 includes four sections 47, 48, 49, and 50 arranged in series as shown in
Each of support rails 36, 38, 40, and 42 has an outer end pivotably coupled to one of corner feet 22 and an inner end pivotably coupled to rail mount 32 so as to facilitate collapsing movement of frame 12 from its erected configuration shown in
A releasable rail lock apparatus 78 is provided in rail mount 32 and configured to lock certain of support rails 36, 38, 40, 42 to rail mount 32 when frame 12 is in its erected configuration as shown in
Referring now to
According to an embodiment of the present disclosure, a playyard 10 may include a collapsible frame 12 and a rail segment lock 25. Collapsible frame 12 may include a rail support adapted 90 to support a playyard floor 16 and a top rail 24. Rail support 90 is configured to fold to be moved between an erected configuration to support playyard floor 16 and a collapsed configuration without playyard floor 16. Top rail 24 may be coupled to rail support 90 of collapsible frame 12 and may be arranged to lie above a playyard floor 16 supported on rail support 90 of collapsible frame 12 upon movement of rail support 90 of collapsible frame 12 to the erected configuration.
Top rail 24 may include a left rail segment 15L coupled to a left corner leg 18 included in rail support 90 of collapsible frame 12, a right rail segment 15R coupled to a right corner leg 18 included in rail support 90 of collapsible frame 12, and a center rail segment 94 arranged to interconnect left and right rail segments 15L, 15R and to support left and right rail segments 15L, 15R for movement relative to one another between an inline-use position wherein left and right rail segments 15L, 15R are arranged to extend along a generally horizontal reference R extending between left and right corner legs 18 and a folded-storage position wherein left and right rail segments 15L, 15R are arranged to extend in a generally vertical orientation in substantially perpendicular relation to the generally horizontal reference line R.
Center rail segment 94 includes a button-support bracket 33, a left fastener 103, coupled to bracket 33 and to left rail segment 15L to support left rail segment 15L for movement relative to bracket 33 during movement of left and right rail segments 15L, 15R between the inline-use and folded-storage positions, and a right fastener 104 coupled to bracket 33 and to right rail segment 15R to support right rail segment 15R for movement relative to bracket 33 during movement of left and right rail segments 15L, 15R between the inline-use and folded-storage positions.
Rail segment lock 25 includes a rail-motion blocker 61 mounted on bracket 33 for pivotable movement about a generally horizontal pivot axis 61A that is arranged to lie in substantially spaced-apart parallel relation to the generally horizontal reference line R when rail support 90 of collapsible frame 12 is in the erected configuration and left and right rail segments 15L, 15R are in the inline-use position between a rail-locking position engaging left and right rail segments 15L, 15R to block movement of left and right rail segments 15L, 15R toward the folded-storage position and a rail-unlocking position disengaging left and right rail segments 15L, 15R to free left and right rail segments 15L, 15R to move toward the folded-storage position.
In some embodiments, rail segment lock 25 may further include a blocker-biasing spring 67 coupled to bracket 33 and to rail-motion blocker 61. The blocker-biasing spring 67 may be configured to provide means for yieldably urging rail-motion blocker 61 to move relative to bracket 33 normally to assume the rail-locking position.
In some embodiments, rail-motion blocker 61 may include a stem 69, a left rail-segment blocker arm 71, and a right rail-segment blocker arm 73. Stem 69 may be mounted for pivotable movement about generally horizontal pivot axis 61A relative to bracket 33. Left rail-segment blocker arm 71 may be coupled to stem 69 and may be arranged to engage left rail segment 15L upon movement of rail-motion blocker 61 to assume the rail-locking position. Right-rail-segment blocker arm 73 may be coupled to stem 69 and may be arranged to engage right rail segment 15R upon movement of rail-motion blocker 61 to assume the rail-locking position. In some embodiments, stem 69 may include a lower portion coupled to blocker-biasing spring 67 and an upper portion coupled to each of left and right rail-blocker arms 71, 73.
In some embodiments, bracket 33 may be formed to include an interior region (or bracket cavity) 13. Stem 69 may be arranged to lie in interior region 13 of bracket 33 during pivoting movement of rail-motion blocker 61 about the generally horizontal pivot axis 61A.
In some embodiments, left rail-blocker arm 71 may be arranged to extend in a first direction. Right rail-blocker arm may be arranged to extend in an opposite second direction. Stem 69 may cooperate with the left and right rail-blocker arms to form a T-shaped component.
In some embodiments, stem 69 may include a middle portion arranged to interconnect lower and upper portions. Rail-motion blocker 61 may also include a button-support hub 11 and a blocker mover button 79. Button support but 11 may be coupled to the middle portion of stem 69 and arranged to extend away from blocker-biasing spring 67. Blocker-mover button 79 may be coupled to the button-support hub 11 and may be arranged to extend through an aperture 49 formed in bracket 33.
In some embodiments, left rail segment 15L is configured to disengage the left rail-segment blocker arm 71 and the right rail segment 15R is configured to disengage the right rail-segment blocker arm 73 in response to upward movement of bracket 33 away from playyard floor 16 supported on rail support 90 while left and right rail segments 15L, 15R lie in the inline-use position and to subsequent pivoting movement of rail-motion blocker 61 about the generally horizontal pivot axis 61A against a biasing force generated by the blocker-biasing spring.
In some embodiments, bracket 33 may be formed to include an interior region 13. Rail-motion blocker 61 may include a stem 69 and a button support hub 11. Stem 69 may be coupled to blocker-biasing spring 67 and may be arranged to pivot about the generally horizontal pivot axis 61A. Button-support hub 11 may be coupled to stem 69 and may be arranged to extend away from blocker-biasing spring 67. Rail-motion blocker 61 may further include a blocker-mover button 79 coupled to the button-support hub 11 and arranged to extend through an aperture 49 formed in bracket 33 to open into the interior region 13.
According to another embodiment of the present disclosure, a playyard 10 may include a rail support 90, a top rail 24, 26, 28, 30, and a rail segment lock 25 as shown in
Top rail 24, 26, 28, 30 may include a left rail segment 15L, a right rail segment 15R, and a central rail segment 94. Central rail segment 94 may be arranged to interconnect left and right rail segments 15L, 15R.
Central rail segment 94 and may be configured to support left and right rail segments 15L, 15R for movement relative to one another between an inline-use position, wherein left and right rail segments 15L, 15R extend from central rail segment 94 along a reference rail line R spaced above a playyard floor 16 supported on rail support 90 (shown in
Rail segment lock 25 may include a blocker-mover button 79 and release means for unlocking left rail segment 15L and right rail segment 15R for movement from the inline-use position to the folded-storage position. The release means may unlock rail segment lock 25 in response to a user lifting bracket 33 upwardly away from a playyard floor 16 supported on rail support 90, pressing blocker-mover button 79, and dropping bracket 33 toward a playyard floor 16 supported on rail support 90 while pressing blocker-mover button 79 so that left rail segment 15L and right rail segment 15R are blocked from moving from the inline-use position to the folded-storage position in response to only pressing of blocker-mover button 79.
In some embodiments, the release means may include a rail-motion blocker 61 coupled to bracket 33 for movement about a lock axis 61A from a locked position to an unlocked position. In the locked position, rail-motion blocker 61 blocks left rail segment 15L and right rail segment 15R from movement from the inline-use position to the folded-storage position. In the unlocked position, rail-motion blocker 61 allows movement of left rail segment 15L and right rail segment 15R from the inline-use position to the folded-storage position. Lock axis 61 may be arranged between reference rail line R and a playyard floor 16 supported on rail support 90 when left and right rail segments 15l, 15R are in the inline-use position.
In some embodiments, rail-motion blocker 61 is T-shaped and includes a button-support stem 69 coupled to bracket 33 along lock axis 61A, a left rail-segment blocker arm 71 spaced apart from lock axis 61A and arranged to extend from button-support stem 69 in a first direction, and a right rail-segment blocker arm 73 spaced apart from lock axis 61A and arranged to extend from button-support stem 69 in a second direction opposite the first direction. Left rail-segment blocker arm 71 may be arranged to block left rail segment 15L from moving from the inline-use position to the folded-storage position when rail-motion blocker 61 is in the locked position. Right rail-segment blocker arm 73 may be arranged to block right rail segment 15R from moving from the inline-use position to the folded-storage position when rail-motion blocker 61 is in the locked position.
In some embodiments, left rail segment 15L includes a left rail tube 58 and a pair of protrusions 57A, 57B coupled to left rail tube 58 and arranged to form a left rail channel 59 as shown in
In some embodiments, the release means may include a rail-motion blocker 61 coupled to bracket 33 for movement from a locked position to an unlocked position. In the locked position, rail-motion blocker 61 may be arranged to block movement of left and right rail segments 15L, 15R from the inline-use position to the folded-storage position. In the unlocked position, rail-motion blocker 61 may be arranged to allow movement of left and right rail segments 15L, 15R from the inline-use position to the folded-storage position. Rail-motion blocker 61 may move from the locked position to the unlocked position in response to a user pressing blocker-mover button 79 inwardly toward a playyard floor 16 supported on rail support 90.
In some embodiments left rail segment 15L may include a left rail tube 58 and a left protrusion 57B coupled to left rail tube 58. Right rail segment 15R may include a right rail tube 60 and a right protrusion 57B coupled to right rail tube 60. Left and right protrusions 57B may be arranged to block rail-motion blocker 61 from movement from the locked position to the unlocked position while left and right rail segments 15L, 15R are in the inline-use position.
In some embodiments, bracket 33 may be U-shaped. Bracket 33 may include a top wall 45, a front wall 43 arranged to extend downwardly from top wall 45 toward a playyard floor 16 supported on rail support 90, and a back wall arranged to extend downwardly from top wall 45 toward a playyard floor 16 supported on rail support 90 so that bracket 33 defines a bracket cavity 13.
In some embodiments, rail-motion blocker 61 may include a button-support stem 69 coupled to bracket 33 and a hub 11 coupled to button-support stem 69. Button-support stem 69 may be received in bracket cavity 13 when rail-motion blocker 61 is in the locked position and in the unlocked position. Hub 11 may extend out of bracket cavity 13 when rail-motion blocker 61 is in the locked position and may be received in bracket cavity 13 when rail-motion blocker 61 is in the unlocked position.
In some embodiments, front wall 43 of bracket 33 is formed to include an opening 49. Hub 11 of rail-motion blocker 61 may extend through opening 49 when rail-motion blocker 61 is in the locked position.
In some embodiments, playyard 10 may include a lock status indicator 29. Lock status indicator 29 may include a locked indicator 83 and an unlocked indicator 86. Locked indicator 83 may be coupled to hub 11 of rail-motion blocker 61 for movement with rail-motion blocker 61 so that locked indicator 83 is visible outside bracket cavity 13 when rail-motion blocker 61 is in the locked position and is hidden inside bracket cavity 13 when rail-motion blocker 61 is in the unlocked position. Unlocked indicator 86 may be coupled to bracket 33 and may be arranged so that hub 11 of rail-motion blocker 61 covers unlocked indicator 86 when rail-motion blocker 61 is in the locked position and is exposed when rail-motion blocker 61 is moved to the unlocked position.
According to another embodiment of the present disclosure, a playyard 10 may include a rail support 90, a top rail 24, 26, 28, 30, and a rail segment lock 25 as shown in
Central rail segment 94 and may be configured to support left and right rail segments 15L, 15R for movement relative to one another between an inline-use position, wherein left and right rail segments 15L, 15R extend from central rail segment 94 along a reference rail line R spaced above a playyard floor 16 supported on rail support 90 (shown in
Rail segment lock 25 may include a rail-motion blocker 61 and a blocker-biasing spring 67. Rail-motion blocker 61 may be coupled to bracket 33 for movement about a lock axis 61 A from a locked position to an unlocked position. In the locked position, rail-motion blocker 61 blocks movement of left and right rail segments 15L, 15R from the inline-use position to the folded-storage position. In the unlocked position, rail-motion blocker 61 allows movement of left and right rail segments 15L, 15R from the inline-use position to the folded-storage position. Blocker-biasing spring 67 may be arranged between bracket 33 and rail-motion blocker 61 to bias rail-motion blocker 61 toward the locked position.
In some embodiments, lock axis 61A may be arranged between reference rail line R and a playyard floor 16 supported on rail support 90. Lock axis 61A may extend parallel to reference rail line R.
In some embodiments, left rail segment 15L may be coupled to bracket 33 for movement about a left rail axis 35A. Right rail segment 15R may be coupled to bracket 33 for movement about a right rail axis 37A. Left and right rail axes 35A, 37A may be perpendicular to lock axis 61A.
In some embodiments, each of left rail segment and right rail segment 15L, 15R may include a rail tube 58, 60 and a pair of protrusions 57A, 57B coupled to rail tube 58, 60. Each pair of protrusions 57A, 57B may be arranged to form left and right channels 59 that receive rail-motion blocker 61 when left and right rail segments 15L, 15R are in the inline-use position.
In some embodiments, rail-motion blocker 61 may be T-shaped. Rail motion blocker 61 may include a button-support stem 69 coupled to bracket 33 for movement about lock axis 61A, a left rail-segment blocker arm 71 extending from button-support stem 69 in a first direction, and a right rail-segment blocker arm 73 extending from button-support stem 69 in a second direction, opposite the first direction. Left rail-segment blocker arm 71 may be arranged to be received in left channel 59 formed by left rail segment 15L when left rail segment 15L is in the inline-use position. Right rail-segment blocker arm 73 may be arranged to be received in right channel 59 formed by right rail segment 15R when right rail segment 15R is in the inline-use position.
In some embodiments, bracket 33 may be U-shaped. Bracket 33 may include a top wall 45, a front wall 43 arranged to extend downwardly from top wall 45 toward a playyard floor 16 supported on rail support 90, and a back wall arranged to extend downwardly from top wall 45 toward a playyard floor 16 supported on rail support 90 so that bracket 33 defines a bracket cavity 13.
In some embodiments, rail-motion blocker 61 is coupled to bracket 33 by a joint unit 95 including pins 104, 105 and spacer sleeves 63, 65. Pin 104, 105 extend through rail-motion blocker 61, back wall 41 of bracket 33, and front wall 43 of bracket 33. Spacer sleeves 63, 65 may wrap around a portion of each pin 104, 105 between rail-motion blocker 61 and back wall 41 of bracket 33 to space rail-motion blocker 61 from back wall 61 of bracket 33. Pins 104, 105 may extend perpendicular to lock axis 61A.
In some embodiments, rail-motion blocker 61 includes a button-support stem 69 coupled to bracket 33 and a hub 11 coupled to button-support stem 69. Button-support stem 69 may be received in bracket cavity 13 when rail-motion blocker 61 is in the locked position and in the unlocked position. Hub 11 may extend out of bracket cavity 13 when rail-motion blocker 61 is in the locked position and may be received in bracket cavity 13 when rail-motion blocker 61 is in the unlocked position.
In some embodiments, front wall 43 of bracket 33 is formed to include an opening 49 with a continuous perimeter. Hub 11 of rail-motion blocker 61 extends through opening 49 when rail-motion blocker 61 is in the locked position.
In some embodiments, playyard 10 may include a lock status indicator 29. Lock status indicator 29 may include a locked indicator 83 and an unlocked indicator 86. Locked indicator 83 may be coupled to hub 11 of rail-motion blocker 61 for movement with rail-motion blocker 61 so that locked indicator 83 is visible outside bracket cavity 13 when rail-motion blocker 61 is in the locked position and is hidden inside bracket cavity 13 when rail-motion blocker 61 is in the unlocked position. Unlocked indicator 86 may be coupled to bracket 33 and may be arranged so that hub 11 of rail-motion blocker 61 covers unlocked indicator 86 when rail-motion blocker 61 is in the locked position and is exposed when rail-motion blocker 61 is moved to the unlocked position.
According to another embodiment of the present disclosure, a locking device 25 for a top rail 24, 26, 28, 30 of a playyard 10 is disclosed. Top rail 24, 26, 28, 30 comprising a left rail segment 15L and a right segment 15R. Locking device 25 may be characterized in that, locking device 25 comprises a lock 61, a bracket 33, and left and right end caps 35, 37. Lock 61 movable between a locked position in which left and right rail segments 15L, 15R are blocked from being collapsed and an unlocked position in which left and right rail segments 15L, 15R are collapsible. Bracket 33 is adapted for supporting lock 61. Left end cap and right end cap 35, 37 coupled to left and right rail segments 15L, 15R, respectively, and being pivotable relative to bracket 33 together with left and right rail segments 15L, 15R, respectively. Left end cap 35 comprises a first blocking element 57A extending downwardly therefrom and right end cap 37 comprises a second blocking element 57A extending downwardly therefrom. Each of first and second blocking elements 57A being movable between an in-line position in which lock 61 is blocked from moving from the locked position to the unlocked position and a lifted position in which lock 61 is movable from the locked position to the unlocked position.
In some embodiments, locking device 25 characterized in that, lock 61 comprises a left arm 71 and a right arm 73, which are blocked from moving from the locked position to the unlocked position when first and second blocking elements 57A are in the in-line position and pivotable relative to bracket 33 from the locked position to the unlocked position when first and second blocking elements 57A are in the lifted position. In some embodiments, locking device 25 characterized in that, lock 61 is coupled to bracket 33 for pivotable movement relative to bracket 33.
In some embodiments, locking device 25 may be characterized in that, locking device 25 further comprises a button coupled to lock 61. Lock 61 is configured to move from the locked position to the unlocked position in response to first and second blocking elements 57A being moved to the lifted position and button 79 being pressed.
In some embodiments, locking device 25 characterized in that, bracket 33 comprises a back wall 41, a front wall 43 and a top wall 45 extending therebetween. Back wall 41 has an upper portion 41U and a lower portion 41L spaced from front wall 43 further than upper portion 41U to form a space between front wall 43 and lower portion 41L of back wall 41 sized to receive lock 61 when lock 61 moves from the locked position to the unlocked position.
According to another embodiment, a playyard 10 has a top rail 24, 26, 28, or 30 that includes a left rail segment 15L, a right segment 15R, and a locking device 25 pivotably connected between left and right rail segments 15L, 15R. Playyard 10 may be characterized in that, locking device 25 includes a lock 61, a bracket 33, and left and right end caps 35, 37. Lock 61 movable between a locked position in which left and right rail segments 15L, 15R are blocked from being collapsed and an unlocked position in which left and right rail segments 15L, 15R are collapsible. Bracket 33 is configured for supporting lock 61. Left end cap 35 and the right end cap 37 may be coupled to left and right rail segments 15l, 15R, respectively, and being pivotable relative to bracket 33 together with the left and right rail segments 15l, 15R, respectively. Left end cap 35 may include a first blocking element 57A extending downwardly therefrom and right end cap 37 may include a second blocking element 57A extending downwardly therefrom. Each of first and second blocking elements 57A may be movable between an in-line position in which lock 61 is blocked from moving from the locked position to the unlocked position and a lifted position in which lock 61 is movable from the locked position to the unlocked position.
In some embodiments, lock 61 comprises a left arm 71 and a right arm 73. Left and right arms 71, 73 are blocked from moving from the locked position to the unlocked position when first and second blocking elements 57A are in the in-line position and are pivotable relative to bracket 33 from the locked position to the unlocked position when first and second blocking elements 57A are in the lifted position.
In some embodiments, lock 61 is coupled to bracket 33. Lock 61 may be pivotable relative to bracket 33.
In some embodiments, playyard 10 includes a button 79 coupled to lock 61. Lock 61 may be moved from the locked position to the unlock position in response to first and second blocking elements 57A being moved to the lifted position and button 79 being pressed.
In some embodiments, bracket 33 comprises a back wall 41, a front wall 43 and a top wall 45 extended therebetween. Back wall 41 has an upper portion 41U and a lower portion 41L spaced further from front wall 43 than upper portion 41U to form a space between front wall 43 and lower portion 41L of back wall 41 sized to receive lock 61 when lock 61 moves from the locked position to the unlocked position.
This application claims priority under 35 U.S.C. §119(e) to U.S. Provisional Application Ser. No. 61/579,956, filed Dec. 23, 2011, which is expressly incorporated by reference herein.
Number | Date | Country | |
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61579965 | Dec 2011 | US |