• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:

    公开号:NL2013148A
    申请号:NL2013148
    申请日:2014-07-08
    公开日:2015-01-12
    发明作者:Xiao-Song Duan;Gu-Liang Yuan
    申请人:Wonderland Nursery Goods;
    IPC主号:
    专利说明:

    Title: JOINT DEVICE
    The invention relates to a joint device, more particularly to a jointdevice for use in a baby basket. A conventional baby basket is used to carry an infant, andincludes a basket, a handle, and a joint device that interconnects rotatablythe basket and the handle. The handle can be locked relative to the basketat an unfolded position by the joint device, where a distal portion of thehandle is distal from the basket. To fold the handle relative to the basket, apushbutton of the joint device needs to be pressed constantly to unlock thehandle, such that the handle can be rotated relative to the basket to a foldedposition, where the distal portion of the handle is close to the basket. Theabovementioned operation needs to be achieved by both hands of a user, andis inconvenient for the user.
    Therefore, the object of the present invention is to provide a jointdevice that can overcome the aforesaid drawbacks associated with the priorarts.
    Accordingly, a joint device of the present invention includes a firstmounting seat, a second mounting seat, a latch member, an operatingmember and a retention unit. The first mounting seat is formed with atleast one first locking groove. The second mounting seat is connected to thefirst mounting seat, is formed with at least one second locking groove, and isrotatable relative to the first mounting seat about a first axis. The secondlocking groove is aligned with the first locking groove in a direction of thefirst axis when the second mounting seat is at an unfolded position relativeto the first mounting seat. The second locking groove is misaligned from thefirst locking groove when the second mounting seat leaves the unfoldedposition. The latch member has at least one latch portion, and is movablealong the first axis between the first and second mounting seats. The latchportion of the latch member engages the first locking groove and the second locking groove to prevent the rotation of the second mounting seat relativeto the first mounting seat when the latch member is at a locking position.The latch portion of the latch member engages the first locking groove andis disengaged from the second locking groove to permit the rotation of thesecond mounting seat relative to the first mounting seat when the latchmember is at an unlocking position. The operating member is coupled to thelatch member, and is capable of being driven to move along the first axistoward the first mounting seat to drive movement of the latch member fromthe locking position to the unlocking position so that the second mountingseat can leave the unfolded position. The retention unit is configured to holdthe latch member at the unlocking position in response to the movement ofthe latch member driven by the operating member from the locking positionto the unlocking position to permit the rotation of the second mounting seatrelative to the first mounting seat when the second mounting seat is at theunfolded position.
    Other features and advantages of the present invention willbecome apparent in the following detailed description of the preferredembodiments with reference to the accompanying drawings, of which:
    Fig. 1 is a perspective view of a baby basket including a firstpreferred embodiment of a joint device according to the invention,illustrating that a second mounting seat is disposed at an unfolded position;
    Fig. 2 is another perspective view of the baby basket, illustratingthat the second mounting seat is disposed at a folded position;
    Fig. 3 is an exploded perspective view of the first preferredembodiment;
    Fig. 4 is a perspective view of the second mounting seat of thefirst preferred embodiment;
    Fig. 5 is a perspective view of a latch member of the firstpreferred embodiment;
    Fig. 6 is a fragmentary sectional view of the first preferredembodiment, illustrating the latch member in a locking position;
    Fig. 7 is another fragmentary sectional view of the first preferredembodiment, illustrating the latch member in an unlocking position;
    Fig. 8 is a fragmentary perspective view of the first preferredembodiment in which the second mounting seat is omitted;
    Fig. 9 is another fragmentary perspective view of the firstpreferred embodiment in which the second mounting seat and the latchmember are omitted;
    Fig. 10 is an exploded perspective view of a second preferredembodiment of the joint device according to the invention;
    Fig. 11 is another exploded perspective view of the secondpreferred embodiment;
    Fig. 12 is a fragmentary sectional view of the second preferredembodiment, illustrating a latch member at a locking position;
    Fig. 13 is another fragmentary sectional view of the secondpreferred embodiment, illustrating the latch member being held at anunlocking position;
    Fig. 14 is an exploded perspective view illustrating a retentionunit of the second preferred embodiment;
    Fig. 15 is a fragmentary sectional view of the second preferredembodiment, illustrating the retention unit holding the latch member at anunlocking position;
    Fig. 16 is a schematic perspective view of a third preferredembodiment of the joint device according to the invention;
    Fig. 17 is a fragmentary sectional view of the third preferredembodiment, illustrating a latch member at a locking position; and
    Fig. 18 is another fragmentary sectional view of the thirdpreferred embodiment, illustrating the latch member being held at anunlocking position.
    Before the present invention is described in greater detail, itshould be noted that like elements are denoted by the same referencenumerals throughout the disclosure.
    Referring to Figs. 1 and 2, a baby basket is shown to include abasket la, a handle lb, and two first preferred embodiments of joint devices100 according to the present invention that interconnect rotatably thebasket la and the handle lb.
    Referring further to Figs. 3 to 9, the first preferred embodimentincludes a first mounting seat 1, a second mounting seat 2, a latch member3, a retention unit 4, an operating member 5, a first resilient member 6 anda second resilient member 7.
    The first mounting seat 1 has a first mounting segment 10 that ismounted with the basket la, and a first shaft segment 13 that extends alonga first axis (A) (see Fig. 6). The second mounting seat 2 has a secondmounting segment 20 that is mounted with the handle lb, and a secondshaft segment 23 that extends along the first axis (A) (see Fig. 6), that isconnected to and inserted into the first shaft segment 13, and that isrotatable relative to the first shaft segment 13 about the first axis (A), suchthat the second mounting seat 2 is rotatable relative to the first mountingseat 1 about the first axis (A) between an unfolded position (see Fig. 1) and afolded position (see Fig. 2). A distal portion of the handle lb is distal fromthe basket la when the second mounting seat is at the unfolded position,and is close to the basket la when the second mounting seat is at the foldedposition.
    The first mounting seat 1 is formed with two first locking grooves11 that are opposite to each other in a direction perpendicular to the firstaxis (A), and a plurality of first auxiliary locking grooves 12. The firstlocking grooves 11 and the first auxiliary locking grooves 12 are angularly-arranged about the first axis (A).
    The second mounting seat 2 is formed with two second lockinggrooves 21 that are opposite to each other in a direction perpendicular to thefirst axis (A), and a plurality of second auxiliary locking grooves 22. Thesecond locking grooves 21 and the second auxiliary locking grooves 22 areangularly-arranged about the first axis (A). Each of the second lockinggrooves 21 is ahgned with a respective one of the first locking grooves 11 inthe direction of the first axis (A) when the second mounting seat 2 is at theunfolded position, and is misaligned from the respective one of the firstlocking grooves 11 in the direction of the first axis (A) when the secondmounting seat 2 leaves the unfolded position. Each of the second auxiliarylocking grooves 21 is aligned with a respective one of the first auxiliarylocking grooves 11 in the direction of the first axis (A) when the secondmounting seat 2 is at the unfolded position, and is misaligned from therespective one of the first auxiliary locking grooves 11 in the direction of thefirst axis (A) when the second mounting seat 2 leaves the unfolded position.The second mounting seat 2 is further formed with a plurality of extensionholes 2a and a plurality of communication holes 2b (see Fig. 4). In thisembodiment, the extension holes 2a and the communication holes 2b arearranged alternately and angularly about the first axis (A).
    The latch member 3 has a circular body 33 that is centered at thefirst axis (A), two latch portions 32 that are opposite to each other in adirection perpendicular to the first axis (A), and a plurality of auxiliarylatch portions 31. The latch portions 32 and the auxiliary latch portions 31are disposed on a periphery of the circular body 33.
    The latch member 3 is disposed movably between the first andsecond mounting seats 1,2. The circular body 33 of the latch member 3 isformed with a through hole 3b for extension of the first and second shaftsegments 13, 23 of the first and second mounting seats 1, 2. The latchmember 3 is movable along the first axis (A) between a locking position (see
    Fig. 6) and an unlocking position (see Fig. 7) when the second mounting seat2 is at the unfolded position.
    When the latch member 3 is at the locking position, each of thelatch portions 32 of the latch member 3 engages a respective one of the firstlocking grooves 11 and the respective one of the second locking grooves 21aligned with the respective one of the first locking grooves 11 to prevent therotation of the second mounting seat 2 relative to the first mounting seat 1,and each of the auxiliary latch portions 31 of the latch member 3 engages arespective one of the first auxiliary locking grooves 12 and the respectiveone of the second auxiliary locking grooves 22 aligned with the respectiveone of the first auxiliary locking grooves 12.
    When the latch member 3 is at the unlocking position, each of thelatch portions 32 of the latch member 3 engages the respective one of thefirst locking grooves 11 and is disengaged from the respective one of thesecond locking grooves 21 to permit the rotation of the second mounting seat2 relative to the first mounting seat 1, and each of the auxiliary latchportions 31 of the latch member 3 engages the respective one of the firstauxiliary locking grooves 12 and is disengaged from the respective one of thesecond auxiliary locking grooves 22. Each of the first and second auxiliarylocking grooves 12, 22 has a dimension smaller than that of each of the latchportions 32 of the latch member 3 to prevent the latch portions 32 frombeing engaged therewith when the second mounting seat 2 leaves theunfolded position.
    The operating member 5 is movable along the first axis (A), is co-rotatable with the second mounting seat 2, and has a button portion 51 thatis disposed at one side of the second mounting seat 2 opposite to the latchmember 3, and a plurality of rod portions 52, each of which extends from aperiphery of the button portion 51 and through a respective one of theextension holes 2a in the direction of the first axis (A). The button portion 51of the operating member 5 is capable of being pressed to move toward the first mounting seat 1 to drive the rod portions 52 to push the latch member3, and to drive movement of the latch member 3 from the locking position tothe unlocking position when the second mounting seat 2 is at the unfoldedposition.
    The first resilient member 6 has opposite ends arranged along thefirst axis (A) and connected respectively to the first mounting seat 1 and thelatch member 3 for biasing the latch member 3 away from the firstmounting seat 1 toward the locking position. In this embodiment, the firstresilient member 6 is configured as a compression spring.
    The second resilient member 7 has opposite ends arranged alongthe first axis (A) and connected respectively to the second mounting seat 2and the operating member 5 for biasing the operating member 5 away fromthe latch member 3 to return to its initial position when the button portion51 of the operating member 5 is released. In this embodiment, the secondresilient member 7 is configured as a compression spring.
    The retention unit 4 includes a plurality of barb-shaped firsthooks 41 and a plurality of barb-shaped second hooks 42. The second hooks42 are connected fixedly to an outer surrounding surface of the first shaftsegment 13 of the first mounting seat 1. Each of the first hooks 41 extendsfrom the periphery of the button portion 51 of the operating member 5through a respective one of the communication holes 2b in the direction ofthe first axis (A).
    The first hooks 41 correspond respectively in angular position tothe second hooks 42 when the second mounting seat 2 is at the unfoldedposition, and are spaced apart from the second hooks 42 along the first axis(A) when the latch member 3 is at the locking position. When the buttonportion 51 of the operating member 5 is pressed to move toward the firstmounting seat 1 to drive the movement of the latch member 3 from thelocking position to the unlocking position, the button portion 51simultaneously drives the first hooks 41 to move toward the first mounting seat 1 to engage respectively the second hooks 42, such that the operatingmember 5 and the first hooks 41 are prevented from moving away from thefirst mounting seat 1 through the engagement between the first and secondhooks 41, 42 to hold the latch member 3 at the unlocking position to permitthe rotation of the second mounting seat 2 relative to the first mounting seat1 when the second mounting seat 2 is at the unfolded position and when theoperating member 5 is released. The latch member 3 is further formed witha plurality of through grooves 3a that are in spatial communication with thethrough hole 3b for receiving respectively the second hooks 42 when thelatch member 3 is at the unlocking position.
    When the second mounting seat 2 rotates relative to the firstmounting seat 1 to leave the unfolded position, each of the first hooks 41 ismisaligned from the respective one of the second hooks 42 in the direction ofthe first axis (A) to be disengaged from the respective one of the secondhooks 42 to release the latch member 3. At this time, the latch member 3 isbiased by the first resilient member 6 to abut against the second mountingseat 2 and is prevented from moving to the locking position due to themisalignment between the first and second locking grooves 11, 21, and theoperating member 5 is biased to move away from the first mounting seat 1to its initial positions by the second resilient member 7 to separate the firsthooks 41 from the second hooks 42 along the first axis (A), such that whenthe second mounting seat 2 rotates back to the unfolded position, the firsthooks 41 cannot engage the second hooks 42 to hold the latch member 3 atthe unlocking position, and the latch member 3 is biased by the firstresilient member 6 to the locking position.
    To sum up, by virtue of the retention unit 4, the latch member 3can be moved from the locking position to the unlocking position, and beretained at the unlocking position to permit the rotation of the secondmounting seat 2 relative to the first mounting seat 1 through a singledepression operation of the operating member 5 when the second mounting seat is at the unfolded position. Referring back to Figs. 1 and 2, in thisinvention, during a fold operation of the handle lb relative to the basket la,the operating member 5 of one of the joint devices 100 is depressed to drivethe latch member 3 of the one of the joint device 100 to be held at theunlocking position, and the operating member 5 of the other one of the jointdevices 100 is subsequently depressed to drive the latch member 3 of theother one of the joint device 100 to be held at the unlocking position. Then,the handle lb can be rotated relative to the basket la to the folded position.The abovementioned fold operation can be achieved by only one hand of auser, and is more convenient than that of the conventional baby basket.
    Referring to Figs. 10 to 15, a second preferred embodiment of thejoint device 100 according to the present invention is similar to the firstpreferred embodiment. What is different is that the retention unit 4’ of thesecond preferred embodiment includes a locking groove 42’, a locking block41’ and a third resilient member 43’.
    The locking groove 42’ is formed in one of the latch portions 32 ofthe latch member 3.
    The locking block 41’ is mounted to the second mounting seat 2,and is movable relative to the second mounting seat 2 along a second axis(B) (see Fig. 12) of the second mounting seat 2 that is oblique to the firstaxis (A).
    The third resilient member 43’ has opposite ends arranged alongthe second axis (B) and connected respectively to the locking block 41’ andthe second mounting seat 2 for biasing the locking block 41’ toward the latchmember 3. In this embodiment, the third resilient member 43’ is configuredas a compression spring.
    The locking groove 42’ is aligned with the second axis (B) whenthe second mounting seat 2 is at the unfolded position and when the latchmember 3 is at the unlocking position (see Fig. 13), such that the lockingblock 41’ is biased by the third resilient member 43’ to engage the locking groove 42’ to hold the latch member 3 at the unlocking position in responseto the movement of the latch member 3 from the locking position to theunlocking position driven by the operating member 5 to permit the rotationof the second mounting seat 2 relative to the first mounting seat 1.
    The first mounting seat 1 is further formed with a first groove lcthat is registered with the locking groove 42’ when the latch member 3 is atthe unlocking position. The second mounting seat 2 is further formed with asecond groove 2c for extension of the locking block 41’ therethrough.
    The first mounting seat 1 has a groove defining surface thatdefines the first groove lc. The locking block 41’ has an inclined surface 413’for contacting slidably the groove defining surface of the first mounting seat1, so that the locking block 41’ is pushed by the groove defining surface to besmoothly disengaged from the locking groove 42’ to release the latchmember 3 when the second mounting seat 2 leaves the unfolded position.
    The locking block 41’ further has an abutment surface 412’ forcontacting the groove defining surface when the second mounting seat 2 isat the unfolded position, so as to limit the rotation angle of the secondmounting seat 2 relative to the first mounting seat 1.
    Referring to Fig. 13, it is noted that there is a gap (G) between thelatch member 3 and an interior end surface 25 of the second mounting seat2 when the latch member 3 is at the unlocking position and when the secondmounting seat 2 is at the unfolded position. Therefore, when the secondmounting seat 2 leaves the unfolded position, the latch member 3 is releasedby the retention unit 4’ and is biased by the first resilient member 6 to moveto an intermediate position, where the latch member 3 abuts against theinterior end surface 25 of the second mounting seat 2 and is prevented frommoving to the locking position due to the misalignment between the firstand second locking grooves 11, 21, and where the locking groove 42’ is notregistered with the first groove lc (i.e., the locking groove 42’ is misahgnedfrom the second axis (B) when the second mounting seat 2 is at the unfolded position), such that the locking block 41’ cannot engage the locking groove42’ to hold the latch member 3 at the unlocking position and the latchmember 3 is biased back to the locking position by the first resilient member6 when the second mounting seat 2 rotates back to the unfolded position.
    Referring to Figs. 16 to 18, a third preferred embodiment of thejoint device 100 according to the present invention is similar to the secondpreferred embodiment. The retention unit 4” of the third preferredembodiment also includes a locking groove 42”, a locking block 41” and athird resilient member 43”. What is different is that the locking block 41” ofthe retention unit 4” is formed with a retaining groove 41a” that extendsalong the second axis B. The second mounting seat 2 further has aprotrusion 2d that is retained in the retaining groove 41a”. The thirdresilient member 43” is retained in the retaining groove 41a”, and hasopposite ends connected respectively to the locking block 41” and theprotrusion 2d for biasing the locking block 41” toward the latch member 3.
    Referring to Fig. 18, like the second preferred embodiment, thereis a gap (G) between the latch member 3 and the interior end surface 25 ofthe second mounting seat 2 when the latch member 3 is at the unlockingposition and when the second mounting seat 2 is at the unfolded position.Therefore, when the second mounting seat 2 leaves the unfolded position,the latch member 3 is biased by the first resilient member 6 to move to anintermediate position, where the latch member 3 abuts against the interiorend surface 25 of the second mounting seat 2, such that the locking block41” cannot engage the locking groove 42” to hold the latch member 3 at theunlocking position when the second mounting seat 2 rotates back to theunfolded position.
    It is noted that, in the second and third preferred embodiments ofthis invention, the operating member 5 may be configured not to be co-rotatable with the second mounting seat 2 (i.e., the operating member 5 may not rotate about the first axis (A) when the second mounting seat 2 rotatesrelative to the first mounting seat 1).
    权利要求:
    Claims (20)
    [1]
    A hinge device (100) characterized by: a first attachment part (1) provided with at least one first locking groove (11); a second mounting part (2) connected to said first mounting part (1), provided with at least one second locking groove (21) and rotatable relative to said first mounting part (1) about a first axis (A), said second locking groove ( 21) with said first locking groove (11) is aligned in a direction of the first axis (A) when said second mounting part (2) is in an unfolded position with respect to said first mounting part (1), said second locking groove (21) being non-aligned with respect to said first locking groove (11) when said second fastening member (2) leaves the unfolded position; a locking member (3) provided with at least one locking portion (32) and movable along the first axis (A) between said first and second mounting member (1, 2), said locking portion (32) of said locking member (3) engaging said first locking groove (11) and said second locking groove (21) to prevent rotation of said second mounting part (2) relative to said first mounting part (1) when said locking member (3) is in a locking position, said locking portion (32) of said locking member (3) engages said first locking groove (11) and is disengaged from said second locking groove (21) to allow rotation of said second attachment part (2) relative to said first attachment part (1) when said locking member (3) is in an unlocking position is located; an operating member (5) coupled to said locking member (3) and adapted to be moved along the first axis (A) toward said first mounting member (1) to move said locking member (3) from the locking position to the unlocking position so that said second mounting member (2) can leave the deployed position, and a holding unit (4, 4 ', 4 ”) configured to hold said latching member (3) in the unlocking position in response to the movement of said latching member (3) moved by said operating member (5) from the locking position to the unlocking position to allow derotation of said second attachment member (2) relative to said first attachment member (1) when said second attachment member (2) is in the deployed position.
    [2]
    The hinge device (100) according to claim 1, characterized in that said second attachment part (2) is configured to prevent said locking member (3) from moving to the locking position through misalignment between said first and second locking grooves (11, 21) about the rotation of said locking member (3). allow second securing member (2) relative to said first securing member (1) when said second securing member (2) leaves the deployed position.
    [3]
    The hinge device (100) according to claim 1, characterized in that said retaining unit (4, 4 ", 4") is configured to release said locking member (3) when said second attachment part (2) leaves the folded-out position.
    [4]
    The hinge device (100) according to claim 1, characterized in that said retaining unit (4, 4 ", 4") is configured not to hold said locking member (3) in the unlocking position when said second fastening member (2) rotates back to the unfolded position.
    [5]
    The hinge device (100) according to claim 1, characterized in that said first attachment part (1) is formed with two said first locking grooves (11) which are placed opposite each other in a direction transverse to the first axis (A), said second attachment part (2) being designed with two said second locking grooves (21) positioned opposite one another in a direction transverse to the first axis (A), said locking member (3) having two said locking portions (32) positioned opposite each other in a direction transverse to the first axis (A) .
    [6]
    The hinge device (100) according to claim 1, characterized in that said first attachment part (1) is further provided with at least one first auxiliary locking groove (12), said second attachment part (2) is further provided with at least one second auxiliary locking groove (22) corresponding to said first auxiliary locking groove (12), said locking member (3) further comprising at least one auxiliary locking portion (31) corresponding to said first auxiliary locking groove (12) and said second auxiliary locking groove (22), said first auxiliary locking groove (12) and said second auxiliary locking groove (22) having a size smaller than said locking portion (32) of said locking member (3) to prevent said locking portion (32) from engaging with it when said second securing member (2) unfolded position.
    [7]
    The hinge device (100) according to claim 1, further characterized by: a first resilient member (6) having opposite ends arranged along the first axis (A) and connected to said first attachment member (1) and said locking member respectively 3) for biasing said locking member (3) in one direction from said first attachment member (1) to the locking position.
    [8]
    The hinge device (100) according to claim 1, further characterized by: a second resilient member (7) having opposite ends arranged along the first axis (A) and connected to said second mounting member (2) and said operating member (5, respectively) ) to bias said operating member (5) in a direction away from said locking member (3) to return to the original position.
    [9]
    The hinge device (100) according to claim 1, characterized in that said holding unit (4) comprises: a first hook (41) fixedly connected to said operating member (5); and a second hook (42) rigidly connected to said first attachment part (1), said first hook (41) corresponding to said second hook (42), wherein said actuator (5) is capable of moving towards said first attachment part (1) be moved to cause said locking position locking member (3) to move to the unlocking position and said first hook (41) to engage said second hook (42) when said second fastening member (2) is in the folded-out position, said locking member (3) in keep the release position.
    [10]
    The hinge device (100) of claim 9, further characterized in that said first hook (41) is non-aligned with said second hook (42) in the direction of the first axis (A) to be disconnected from said second hook (42) about said second hook (42). releasing the locking member (3) when said second fastening part (2) leaves the unfolded position.
    [11]
    The hinge device (100) according to claim 9, further characterized in that: said second attachment part (2) is further provided with a passage hole (2a) and a connection hole (2b); and said operating member (5) includes: a button portion (51) disposed on a side of said second fastening member (2) opposite said locking member (3), said first hook (41) extending from said button portion (51) by said connecting hole (2b) in the direction of the first axis (A); and a rod portion (52) extending from said button portion (51) and extending through said passage hole (2a) in the direction of the first axis (A), said button portion (51) being capable of being moved toward said first attachment portion (1) to push said bar portion (52) against said locking member (3) to cause said locking member (3) to move from the locking position to the unlocking position and to allow said first hook (41) to engage said second hook (42) to to keep the locking member (3) in the unlocking position when said second attachment part (2) is in the folded-out position.
    [12]
    The hinge device (100) according to claim 1, characterized in that said retaining unit (4 ", 4") comprises: a locking groove (42 ", 42") formed in said locking member (3); and a locking block (41 ', 41 ”) which is attached to said second attachment part (2) and is movable relative to said second attachment part (2) along a second axis (B) of said second attachment part (2) which is inclined with respect to the first axis (A), wherein said locking groove (42 ', 42 ”) is aligned with said second axis (B) when said second attachment member (2) is in the deployed position and when said locking member (3) is in the unlocked position, such that said locking block (41 ', 41 ") can be biased to engage said locking groove (42', 42") to hold said locking member (3) in the unlocking position.
    [13]
    The hinge device (100) of claim 12, further characterized in that said locking groove (42 ", 42") is provided in said locking portion (32) with said locking member (3).
    [14]
    The hinge device (100) of claim 12, further characterized in that said holding unit (4 ', 4 ") further comprises a third resilient member (43', 43") connected to said locking block (4Γ, 41 ") around said locking block (41 ', 41') to be biased towards said locking member (3) such that said locking block (41 ', 41 ") is biased by said third resilient member (43', 43") to engage on said locking groove (42 ', 42 ') to hold said latch member (3) in the release position in response to the movement of said latch member (3) from the latch position to the release position to allow the rotation of said second attachment member (2) relative to said first attachment member (1) when said second fastening part (2) is in the folded-out position when said operating member (5) is released.
    [15]
    The hinge device (100) of claim 12, further characterized in that said locking block (41 ', 41 ") is released from said locking groove (42', 42") to release said locking member (3) by the alignment between said locking groove ( 42 ', 42') and said second axis (B) when said second attachment part (2) leaves the unfolded position.
    [16]
    The hinge device (100) according to claim 12, further characterized in that, when said second mounting part (2) leaves the folded-out position, said locking member (3) is configured to be moved to an intermediate position between the locking and unlocking positions, wherein said locking portion (32) of said locking member (3) is disengaged from said second locking groove (21) to allow rotation of said second mounting member (2) relative to said first mounting member (1) such that said locking block (41 ', 41') cannot engage on said locking groove (42 ', 42 ”) to hold said locking member (3) in the unlocking position when said second mounting member (2) rotates back to the unfolded position.
    [17]
    The hinge device (100) according to claim 12, further characterized in that: said first attachment part (1) is provided with a first groove (1c) coinciding with said locking groove (42 ', 42') when said locking member (3) is in the unlocking position ; said locking block (41 ', 41 ”) comprises an inclined surface (413') for slidingly contacting a groove defining surface of said first attachment part (1) defining said first groove (1c), so that said locking block (41 ', 41 ") Is pushed through said groove defining surface to be disengaged from said locking groove (42 ', 42") to release said locking member (3) when said second attachment member (2) leaves the unfolded position; and said second attachment part (2) is provided with a second groove (2c) for said locking block (41 ", 41") to pass therethrough.
    [18]
    The hinge device (100) according to claim 17, further characterized in that said locking block (41 ', 41 ”) further comprises a stop surface (412) for contacting said groove defining surface when said second attachment part (2) is in the unfolded position, so as to limit (1) the angle of rotation of said second mounting part (2) relative to said first mounting part.
    [19]
    The hinge device (100) according to claim 12, further characterized in that said locking block (41 ") is provided with a retaining groove (41a") extending along the second axis (B), said second attachment part (2) further comprising a protrusion (2d) that is retained in said retaining groove (41a ").
    [20]
    The hinge device (100) according to claim 19, further characterized by a third resilient member (43 ') that is retained in said retaining groove (41a') and that has opposite ends that are connected to said locking block (41 ") and said projection (2d) respectively biasing said locking block (41 ') towards said locking member (3).
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    TWI597411B|2017-09-01|Combinaton lock
    JP6646948B2|2020-02-14|Side fence locking mechanism
    同族专利:
    公开号 | 公开日
    TW201508184A|2015-03-01|
    DE102014109500B4|2021-01-14|
    CN104273982A|2015-01-14|
    CN104273982B|2016-12-28|
    NL2013148C2|2015-08-06|
    DE102014109500A1|2015-01-15|
    GB2517288A|2015-02-18|
    GB201411962D0|2014-08-20|
    TWI554690B|2016-10-21|
    GB2517288B|2020-05-13|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    DE29706026U1|1997-03-17|1997-05-28|Lan Red|Swivel joint for a stroller frame|
    WO2002064986A1|2001-02-09|2002-08-22|Igc Pty Ltd|Angularly adjustable coupling|
    EP2011717A1|2007-07-03|2009-01-07|Graco Children's Products Inc.|Baby carriage|
    DE202008013777U1|2008-11-14|2009-03-19|Schiel Gmbh|joint|
    CN2722750Y|2004-05-21|2005-09-07|明门实业股份有限公司|Diaper table|
    CN200995703Y|2006-12-28|2007-12-26|明门实业股份有限公司|Pram combined with seat of vehicle, and combination of pram and seat of vehicle|
    CN101712332B|2008-10-01|2012-09-19|明门实业股份有限公司|Baby Carriage and combination of baby carriage with automobile seat|
    CN201998843U|2010-12-09|2011-10-05|好孩子儿童用品有限公司|Baby carriage and combined body of baby carriage and children automobile seat|
    CN202091342U|2011-04-22|2011-12-28|屈晖娟|Positioning joint and portable electronic equipment bracket|
    CN203182478U|2012-02-16|2013-09-11|明门香港股份有限公司|Baby supporting device and handle angle adjusting mechanism thereof|
    CN202775326U|2012-09-20|2013-03-13|宁波贝驰儿童用品有限公司|Child dining chair and joint structure thereof|
    CN203637903U|2013-11-29|2014-06-11|好孩子儿童用品有限公司|Folding lock bar and baby stroller|CN103625530B|2012-08-22|2016-03-02|明门香港股份有限公司|Safe lock mechanism|
    CN104847784A|2015-01-24|2015-08-19|彭辉|Snapping rotation apparatus|
    DE102015105837A1|2015-04-16|2016-10-20|Husqvarna Ab|Articulated connection for connecting at least one elongate object|
    CN105015606A|2015-07-22|2015-11-04|柯全德|Baby carriage with function of two-stage locking|
    CN106129920B|2016-08-18|2018-02-02|深圳市康瑞通精密仪器有限公司|Pivoting articulation and there is its equipment support arm|
    CN112515407A|2019-09-18|2021-03-19|明门瑞士股份有限公司|Folding positioning mechanism and infant seat|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    CN201310288574.9A|CN104273982B|2013-07-09|2013-07-09|Joint arrangement|
    CN201310288574|2013-07-09|
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