TECHNICAL FIELD
The present disclosure relates to the technical field of baby products, in particular to a folding mechanism capable of simply folding a baby carrier.
BACKGROUND
Baby carriers are common baby-related products on the market, such as sleeping boxes, cribs, cradle or the like. Generally, a baby carrier includes a frame body for carrying a baby, a bracket body for supporting the frame body, a cloth cover laid on the frame, a handle which is convenient for a user to hold, and other components. When it is used by a baby, the components are fixed to each other to ensure that the whole carrier will not collapse due to movement of the baby, such as turning over or rolling, or external disturbance.
However, when the baby carrier is not used, a volume of the baby carrier which is kept in a use state is large, and therefore, it is not only unfavorable for carrying, but also tends to occupy large room space. In order to facilitate the baby carrier to be carried and stored, it is necessary to provide a folding mechanism that is capable of folding different parts of the baby carrier to reduce its volume.
SUMMARY
An objective of the present disclosure is to provide a folding mechanism for easily folding a baby carrier.
In order to achieve the above objective, the present disclosure provides a folding mechanism, which is suitable for a baby carrier. The baby carrier includes a first part and a second part, and the first part and the second part are arranged in a longitudinal direction. The folding mechanism includes a connecting element, wherein the second part is movably connected to the first part through the connecting element, and an extending direction of the connecting element is parallel to the longitudinal direction.
Preferably; each of the first part and the second part includes a bottom plate, and the connecting element is pivotally connected to the bottom plate of the first part and the bottom plate of the second part, respectively.
Preferably, a length of the second part in the longitudinal direction is less than or equal to a length of the first part in the longitudinal direction. An accommodating groove is formed on the bottom plate of the first part, and is recessed relative to an upper surface of the bottom plate of the first part. A through groove is provided on the bottom plate of the second part, and is communicated with an upper surface and a lower surface of the bottom plate of the second part. The connecting element penetrates through the accommodating groove and the through groove.
Preferably, the folding mechanism further includes a first limit element and a second limit element, wherein the first limit element and the second limit element are respectively fixed, pivoted or clamped on the bottom plate of the first part and the bottom plate of the second part, and the connecting element is sleeved on the first limit element and the second limit element.
Preferably, the length of the second part in the longitudinal direction is less than or equal to the length of the first part in the longitudinal direction. Each of the first part and the second part further includes a side wall, and each side wall surrounds the corresponding bottom plate. The folding mechanism is adapted to switch the baby carrier between an unfolded state and a folded state, the bottom plate of the second part is abutted against and coplanar with the bottom plate of the first part in the unfolded state, and the bottom plate and the side wall of the second part are respectively superposed on the bottom plate and the side wall of the first part in the folded state.
Preferably, the folding mechanism further includes a connecting hole. Each of the first part and the second part includes an end face, the connecting element is fixedly disposed on one of the first part and the second part and protrudes relative to the corresponding end face, the connecting hole is formed on the end face of the other of the first part and the second part, and the number and position of the connecting hole correspond to those of the connecting element.
Preferably, the length of the second part in the longitudinal direction is less than or equal to the length of the first part in the longitudinal direction. The connecting element is fixedly disposed on the second part, and a length of the connecting element protruding relative to the end face of the second part is less than a length difference between the first part and the second part in the longitudinal direction.
Preferably, each of the first part and the second part includes a bottom plate and a side wall, and each side wall surrounds the corresponding bottom plate. The connecting element is disposed outside of at least one of the bottom plate and the side wall of the second part and includes a sliding portion, at least one of the bottom plate and the side wall of the first part is formed with a sliding rail or sliding groove, and the sliding portion is slidably disposed on the sliding rail or sliding groove.
Preferably, the folding mechanism further includes an operating element and at least one locking element. The operating element is arranged on one of the first part and the second part and is formed with at least one limit groove, and the at least one locking element includes a locking portion and a limit portion. The limit portion is slidably disposed in the limit groove, the other of the first part and the second part is formed with a plurality of locking holes, and the locking portion is selectively clamped in these locking holes.
Preferably; the folding mechanism further includes an elastic element, the locking element and the limit groove are provided in plural, and the elastic element is arranged between the operating element and the plurality of locking elements.
Preferably, an extending direction of the locking element is inclined relative to the longitudinal direction, and an extending direction of the limit groove is inclined relative to the longitudinal direction and the extending direction of the locking element.
Preferably, the operating element is disposed outside of the bottom plate of the second part, an accommodating groove is formed on the bottom plate of the first part, these locking holes are arranged on a side of the accommodating groove, and a driving element and the locking element are slidably disposed in the accommodating groove.
Preferably, the connecting element further includes a fixing portion, wherein the sliding portion is pivotally connected to the fixing portion, and the connecting element is fixedly disposed outside of at least one of the bottom plate and the side wall of the second part through the fixing portion.
In addition, the present disclosure also provides another folding mechanism for a baby carrier. The baby carrier includes a first part and a second part. The first part includes a base portion and a plurality of folding portions. The plurality of folding portions are pivotally connected to the base portion, and the base portion, at least one of the folding portions and the second part are sequentially arranged in a longitudinal direction. The folding mechanism includes a connecting element, wherein the second part is slidably connected to the base portion through the connecting element, and an extending direction of the connecting element is parallel to the longitudinal direction.
Preferably, the folding mechanism further includes a locking element, a driving element and an operating element. The locking element is pivotally connected to one of the folding portions and includes an extending portion and a bending portion, wherein the extending portion is formed with a limit feature thereon, and the bending portion is bent relative to the extending portion. The second part includes a locking portion, and the bending portion is selectively clamped to the locking portion. The driving element is arranged on the folding portion and formed with a limit groove, and the limit feature is slidably disposed in the limit groove. The operating element is connected to the driving element and protrudes or recesses relative to a surface of the folding portion.
Preferably; the folding mechanism further includes an elastic element, and the elastic element is arranged between the folding portion and the driving element.
Preferably, the baby carrier further includes a handle, the handle is formed with a positioning portion, and an end of the driving element is selectively clamped to the positioning portion.
Preferably, the folding portion is formed with a first accommodating space, a second accommodating space and a sliding groove, the second accommodating space is arranged at a side of the folding portion, the sliding groove is communicated with the first accommodating space and the second accommodating space, a part of the handle penetrates through the first accommodating space, the driving element is slidably disposed in the sliding groove, and at least a part of the locking portion is accommodated in the second accommodating space.
Preferably, an extending direction of the sliding groove is parallel to the longitudinal direction.
Preferably, the driving element and the locking element are embedded inside the folding portion.
Preferably, the connecting element is a pipe element and includes a first pipe and a second pipe, wherein the first pipe is arranged at the base portion and formed with a cavity, and the second pipe is connected to the second part and slidably disposed in the cavity.
Preferably, the first pipe is embedded inside the base portion.
BRIEF DESCRIPTION OF THE DRAWINGS
The present disclosure will be more apparent from the following description in combination with the accompanying drawings, which are used to explain the embodiments of the present disclosure.
FIG. 1 is a perspective schematic view of a baby carrier in an unfolded state to which folding mechanisms according to a first embodiment of the present disclosure are applied.
FIG. 2 is an exploded view of some components of the baby carrier of FIG. 1.
FIG. 3 is an enlarged schematic view of an area A in FIG. 2.
FIG. 4 is a schematic cross-sectional view of the baby carrier of FIG. 1.
FIG. 5 is a partially enlarged schematic view of FIG. 4.
FIG. 6 is a perspective schematic view of the baby carrier of FIG. 1 in a folded state.
FIG. 7 is a perspective schematic view of a baby carrier in an unfolded state to which folding mechanisms according to a second embodiment of the present disclosure are applied.
FIG. 8 is a perspective schematic view of the baby carrier of FIG. 7 during folding.
FIG. 9 is a perspective schematic view of the baby carrier of FIG. 7 in a folded state.
FIG. 10 is a perspective schematic view of a baby carrier in an unfolded state to which folding mechanisms according to a third embodiment of the present disclosure are applied.
FIG. 11 is a perspective schematic view of the baby carrier of FIG. 10 in a folded state.
FIG. 12 is a perspective schematic view of a baby carrier in an unfolded state to which folding mechanisms according to a fourth embodiment of the present disclosure are applied.
FIG. 13 is a perspective schematic view of a first part of FIG. 12.
FIG. 14 is a perspective schematic view of the first part of FIG. 13 from another perspective.
FIG. 15 is a perspective schematic view of a sliding rail of FIG. 14.
FIG. 16 is a perspective schematic view of a second part of FIG. 12.
FIG. 17 is a perspective schematic view of a connecting element of FIG. 16.
FIG. 18 is a schematic cross-sectional view of the baby carrier of FIG. 12.
FIG. 19 is a schematic bottom view of the baby carrier of FIG. 12.
FIG. 20 is a schematic bottom view of the baby carrier of FIG. 19 with a cover removed.
FIG. 21 is a perspective schematic view of a baby carrier in an unfolded state to which folding mechanisms according to a fifth embodiment of the present disclosure are applied.
FIG. 22 is a schematic bottom view of the baby carrier of FIG. 21.
FIG. 23 is a schematic bottom view of the baby carrier of FIG. 22 with a base portion removed and a part of the folding portion folded.
FIG. 24 is a schematic cross-sectional view of the baby carrier of FIG. 21.
FIG. 25 is a schematic view of internal components of the baby carrier of FIG. 21.
FIG. 26 is a schematic view of the internal components of the baby carrier of FIG. 25 after the connecting elements are folded.
FIG. 27 is a perspective schematic view of the baby carrier of FIG. 21 from another perspective.
FIG. 28 is a schematic view of a first step of a process from the unfolded state to the folded state of the baby carrier of FIG. 21.
FIG. 29 is a schematic view of a second step of the process from the unfolded state to the folded state of the baby carrier of FIG. 21.
FIG. 30 is a schematic view of a third step of the process from the unfolded state to the folded state of the baby carrier of FIG. 21.
FIG. 31 is a schematic view of a fourth step of the process from the unfolded state to the folded state of the baby carrier of FIG. 21.
FIG. 32 is a perspective schematic view of the baby carrier of FIG. 21 in a folded state.
LIST OF REFERENCE NUMBERS
- Folding Mechanism 1, 1a, 1b, 1c, 1d
- First Connecting Element 100
- Connecting Element 100a, 100b, 100c, 100d
- Accommodating Groove 110
- Sliding Portion 110c
- First Pipe 110d
- Cavity 112d
- Limit Hole 120
- Fixing Portion 120c
- Second Pipe 120d
- Second Connecting Element 200
- First Limit Element 200a
- Locking Element 300
- Second Limit Element 300a
- Driving Element 300d
- Limit Portion 310
- Limit Groove 310c, 310d
- Cambered Surface 312
- Through Hole 320
- Operating Element 300c, 400, 400d
- Cover 400c
- Operating Portion 410
- Penetrating Portion 420
- Positioning Element 500
- Locking Element 500c, 500d
- Positioning Portion 510
- Locking Portion 510c
- Extending Portion 510d
- Limit Feature 512d
- Limit portion 520c
- Bending Portion 520d
- Elastic Element 600, 600c, 600d
- Limit Element 700
- First Auxiliary Connector 800
- Second Auxiliary Connector 900
- Stopper 910
- Baby Carrier 2, 2a, 2b, 2c, 2d
- First Part 10, 10a, 10b, 10c, 10d
- Bottom Plate 12a, 12b, 12c
- Base Portion 12d
- Side Wall 14a, 14b, 14c
- Folding Portion 14d
- End Face 16b
- Pivot 16d
- Guide Post 18c
- Second Part 20, 20a, 20b, 20c, 20d
- Bottom Plate 22a, 22b, 22c
- Locking Portion 22d
- Side Wall 24a, 24b, 24c
- End Face 26b
- Handle 30, 30a, 30b, 30d
- Clamping Portion 32d
- Area A
- Accommodating Groove G
- Connecting Hole H
- Sliding groove J
- Longitudinal Direction L
- Locking Hole P
- Sliding Rail R
- Accommodating Space S
- First Accommodating Space S1
- Second Accommodating Space S2
- Through Groove T
DETAILED DESCRIPTION
Embodiments of the present disclosure will now be described with reference to the accompanying drawings, in which like reference numbers represent like components.
Referring to FIG. 1, FIG. 1 is a perspective schematic view of a baby carrier in an unfolded state to which folding mechanisms according to the first embodiment of the present disclosure are applied. The folding mechanism 1 of the present embodiment is suitable for a baby carrier 2. The baby carrier 2 is a portable sleeping box or cradle, and includes a first part 10, such as an armrest or an upper frame of the sleeping box, and a second part 20, such as a box body or a lower frame of the sleeping box, arranged opposite to the first part 10. Preferably, the baby carrier 2 further includes a handle 30, wherein the handle 30 is connected to the first part 10, and can be held by a user to facilitate carrying the baby carrier 2.
Referring to FIGS. 2 and 3 together, FIG. 2 is an exploded view of some components of the baby carrier of FIG. 1, and FIG. 3 is an enlarged schematic view of an area A in FIG. 2. As shown in FIG. 1, in this embodiment, the baby carrier 2 is equipped with four folding mechanisms 1, which are respectively arranged in front, rear, left and right directions of the baby carrier 2 and located between the first part 10 and the second part 20. These folding mechanisms 1 are used to lock the baby carrier 2 in an unfolded state where the first part 10 and the second part 20 are opposite to each other or fold the baby carrier into a folded state where the first part 10 and the second part 20 are adjacent to each other. It is worth mentioning that, according to the actual requirements, the baby carrier 2 may also be provided with only one folding mechanism 1 respectively at the front and rear as shown in FIG. 2, or even only one folding mechanism I respectively at one of the front, rear, left and right ends, which is not limited by the present disclosure. As shown in FIG. 3, each of the folding mechanisms 1 includes a first connecting element 100, a second connecting element 200, a locking element 300, an operating element 400 and a positioning element 500, wherein the first connecting element 100 is pivotally connected to the first part 10, the second connecting element 200 is pivotally connected to the second part 20, the locking element 300 is arranged on the first connecting element 100, the operating element 400 is fixed relative to the locking element 300, and the positioning element 500 is arranged on the second connecting element.
Specifically, each of the folding mechanisms 1 further includes a first auxiliary connector 800 and a second auxiliary connector 900, wherein the first auxiliary connector 800, for example, is a metal sleeve sleeved on the first part 10 and fixedly disposed on the first connecting element 100, while the second auxiliary connector 900, for example, is a pivot seat fixedly disposed on the second part 20 and pivotally connected with the second connecting element 200. In other words, the first connecting element 100 is pivotally connected to the first part 10 through the first auxiliary connector 800, and the second connecting element 200 is pivotally connected to the second part through the second auxiliary connector 900. Specifically, the folding mechanisms 1 enables the baby carrier 2 to be switched between the unfolded state and the folded state by operating the locking element 300 to selectively clamp the positioning element 500 through the operating element 400. As shown in FIG. 3, the locking element 300 and the operating element 400 may be an integrally formed member, or they may be independent members. In this embodiment, the locking element 300 and the operating element 400 are independent from each other, wherein the locking element 300 includes a limit portion 310 and is formed with through hole(s) 320, and the operating element 400 includes an operating portion 410 and a penetrating portion 420. The operating portion 410 protrudes relative to a surface of the first connecting element 100, so that it may be easily grasped by a user. The penetrating portion 420 is, for example, a protruding column, and in this embodiment, two penetrating portions are provided and penetrate through the through holes 320 to fix the locking element 300 and the operating element 400 to each other. On the other hand, the positioning element 500 is formed with a positioning portion 510, wherein the positioning portion 510 is, for example, a groove, and has a shape corresponding to that of the limit portion 310, and the limit portion 310 is selectively clamped to the positioning portion 510.
Referring to FIGS. 4 to 6, FIG. 4 is a schematic cross-sectional view of the baby carrier of FIG. 1, FIG. 5 is a partially enlarged schematic view of FIG. 4, and FIG. 6 is a perspective schematic view of the baby carrier of FIG. 1 in a folded state. As shown in FIG. 5, the first connecting element 100 is formed with an accommodating groove 110, wherein the accommodating groove 110 extends in a longitudinal direction of the first connecting element 100, the locking element 300 is slidably disposed in the accommodating groove 110, and the positioning element 500 is fixedly disposed on the second connecting element 200. Preferably, each of the folding mechanisms 1 further includes two limit elements 700, wherein the limit elements 700 are rivets or bolts, for example, and one of the limit elements 700 penetrates through an end of the first connecting element 100 and an end of the second connecting element 200, so that the first connecting element 100 and the second connecting element 200 are pivotally connected to each other through the limit element 700. The other of the limit elements 700 penetrates through the other end of the second connecting element 200 and the second auxiliary connector 900, so that the second connecting element 200 is pivotable relative to the second auxiliary connector 900. Thus, when the user operates the locking element 300 via the operating element 400 to slide upwards of the accommodating groove 110 in the longitudinal direction, the limit portion 310 is separated from the positioning portion 510 and the locking element 300 is no longer clamped on the positioning element 500, so that the first connecting element 100 and the second connecting element 200 is pivotable relative to each other through the limit element 700, and then the baby carrier 2 is switched into the folded state as shown in FIG. 6. Preferably, each of the folding mechanisms 1 further includes an elastic element 600, wherein the elastic element 600 is, for example, a spring and is used to return the locking element 300 to a position clamped with the positioning element 500. Specifically, the elastic element 600 is arranged in the accommodating groove 110 and connected to the first connecting element 100 and the locking element 300. When the user operates the locking element 300 via the operating element 400 to slide upwards, the elastic element 600 will be pressed and accumulate an elastic force. When the user releases the operating element 400 and the first connecting element 100 and the second connecting element 200 pivot to a position where the limit portion 310 corresponds to the positioning portion 510 again, the limit portion 310 will be pushed against by the elastic element 600 into the positioning portion 510, so that the baby carrier 2 is automatically locked in the unfolded state.
Furthermore, in order to reduce the wear between components of the locking element 300 during sliding, it is preferable that at least one of the limit portion 310 and the positioning portion 510 has a cambered surface, and in this embodiment, the limit portion 310 has a cambered surface 312. Thus, the locking element 300 can reduce the abrasion or collision with the positioning portion 510 by means of the buffer effect of the cambered surface 312, no matter whether it slides towards the upper end of the accommodating groove 110 through the operating element 400 or automatically resets when the baby carrier 2 changes from the folded state to the unfolded state, thereby facilitating to prolong the service life of the folding mechanisms 1.
In addition, the folding mechanism 1 of this embodiment also has an effect of limiting a displacement stroke of the operating element 400. In detail, as shown in FIG. 3, the first connecting element 100 is also formed with limit hole(s) 120, wherein the limit hole 120 is, for example, a long hole penetrating through a wall surface of the first connecting element 100, and has a longitudinal length (i.e., a length in the longitudinal direction) larger than that of the penetrating portion 420, and the penetrating portion 420 is slidably disposed in the limit hole 120. With this arrangement, when the user pushes against the operating element 400, the displacement stroke of the operating element 400 is limited to the longitudinal length of the limit hole 120, which can prevent the locking element 300 and the operating element 400 from excessively sliding.
In addition, in order to prevent the first connecting element 100 and the second connecting element 200 from pivoting towards outside of the baby carrier 2 to increase a volume of the baby carrier 2 when it is folded, the second auxiliary connector 900 of this embodiment includes a stopper 910 to limit a pivoting direction of the first connecting element 100 and the second connecting element 200. Specifically, the first part 10 and the second part 20 surround and form an accommodating space S for accommodating a baby, and the stopper 910 is arranged outside of the second connecting element 200 relative to the accommodating space S. When the baby carrier 2 is in the unfolded state, the stopper 910 abuts against an outer side of the lower end of the second connecting element 200, so that the first connecting element 100 and the second connecting element 200 cannot pivot outwardly from the accommodating space S, not only reducing the volume of the baby carrier 2 when it is folded, but also preventing the folding mechanisms 1 from protruding outwards and colliding with other objects and being damaged.
It is worth mentioning that, in this embodiment, the first connecting element 100 is pivotally connected to the first part 10, the second connecting element 200 is pivotally connected to the second part 20, and the locking element 300 and the positioning element 500 are respectively arranged on the first connecting element 100 and the second connecting element 200, however, the present disclosure is not limited to the above embodiment. In other possible embodiments, the first connecting element 100 may be pivotally connected to the second part 20, and the positioning element 500 may be arranged on the second connecting element pivotally connected to the first part 10, which can also achieve the effect of selectively clamping.
In addition, in this embodiment, the operating portion 410 protrudes relative to the surface of the first connecting element 100, but in other possible embodiments, the operating portion 410 may also have a concave structure relative to the surface of the first connecting element 100, so as to facilitate fingers of the user to put into and grasp. On the other hand, in this embodiment, the stopper 910 is arranged on the second auxiliary connector 900, but in other possible embodiments, the stopper may be arranged on the first auxiliary connector 800, or the stopper may be arranged on each of the first auxiliary connector 800 and the second auxiliary connector 900, which can also achieve the effect of preventing the first connecting element 100 and the second connecting element 200 from rotating outwardly from the accommodating space S.
Referring to FIGS. 7 to 9, FIG. 7 is a perspective schematic view of the baby carrier in an unfolded state, FIG. 8 is a perspective schematic view of the baby carrier of FIG. 7 during folding, and FIG. 9 is a perspective schematic view of the baby carrier of FIG. 7 in a folded state. The folding mechanism 1a of this embodiment is applicable to a baby carrier 2a, which may also be a sleeping box or cradle and includes a first part 10a and a second part 20a, wherein the first part 10a is a front half of the sleeping box, the second part 20a is a rear half of the sleeping box, and the first part 10a and the second part 20a are arranged in a longitudinal direction L. On the other hand, the folding mechanism 1a includes a connecting element 100a, wherein the second part 20a is movably connected to the first part 10a through the connecting element 100a, and an extending direction of the connecting element 100a is parallel to the longitudinal direction L. Preferably, the baby carrier 2a further includes a handle 30a, wherein the handle 30a is connected to the first part 10a, and can be held by a user to facilitate carrying the baby carrier 2a.
Specifically, the connecting element 100a of this embodiment is, for example, a connecting rod and may be provided in plural, and the first part 10a and the second part 20a are pivotally connected to each other through the connecting element 100a. As shown in FIG. 8, the first part 10a includes a bottom plate 12a and a side wall 14a, the side wall 14a surrounds the bottom plate 12a and forms an opening at a position of the bottom plate 12a facing the second part 20a. The second part 20a further includes a bottom plate 22a and a side wall 24a, the side wall 24a surrounds the bottom plate 22a and forms an opening at a position of the bottom plate 22a facing the first part 10a, and the connecting element 100a is pivotally connected to the bottom plate 12a of the first part 10a and the bottom plate 22a of the second part 20a, respectively. Thus, the folding mechanism 1a is suitable for switching the baby carrier 2a between an unfolded state as shown in FIG. 7 and a folded state as shown in FIG. 9. When the baby carrier 2a is in the unfolded state, the opening of the first part 10a and the opening of the second part 20a are opposite to each other, and the bottom plate 22a of the second part 20a abuts against and is coplanar with the bottom plate 12a of the first part 10a. When the user finishes using the baby carrier 2a, the second part 20a may be screwed into the space surrounded by the side wall 14a of the first part 10a through the connecting element 100a, and at this time, the bottom plate 22a and the side wall 24a of the second part 20a will be superposed on the bottom plate 12a and the side wall 14a of the first part 10a, respectively, forming a state shown in FIG. 9.
Furthermore, in order for the connecting element 100a to smoothly drive the second part 20a to pivot relative to the first part 10a, the bottom plate 12a of this embodiment is provided with accommodating grooves G. The number of the accommodating grooves G corresponds to the number of connecting elements 100a and the accommodating grooves G are recessed relative to an upper surface of the bottom plate 12a. The bottom plate 22a is provided with through grooves T, the number of through grooves T also corresponds to the number of connecting elements 100a, and the through grooves T communicates an upper surface with a lower surface of the bottom plate 22a. The connecting element 100a penetrates through the accommodating groove G and the through groove T. In other words, the connecting element 100a penetrates through the bottom plate 22a through the through groove T, so that the connecting element 100a may rotate relative to the bottom plate 22a in the longitudinal direction L and a thickness direction of the bottom plate 22a during pivoting of the second part 20a relative to the first part 10a. When the baby carrier 2a is in the unfolded state, the connecting element 100a may also be received in the accommodating groove G, and thus will not protrude from the bottom plate 12a and the bottom plate 22a, which causes discomfort for the baby to lie down.
Preferably, the folding mechanism 1a further includes a first limit element 200a and a second limit element 300a, wherein the first limit element 200a and the second limit element 300a are, for example, bolts and are fixedly disposed on the bottom plate 12a and the bottom plate 22a respectively, and the connecting element 100a has sleeve-like structures at its head and tail ends, and the connecting element 100a is sleeved on the first limit element 200a and the second limit element 300a through the above-mentioned sleeve structures. With this arrangement, pivoting of the second part 20a relative to the first part 10a can be realized by rotating of the connecting element 100a relative to the first limit element 200a and the second limit element 300a, thereby reducing the abrasion between components and the bottom plates 12a and 22a. Of course, in other possible embodiments, the first limit element 200a and the second limit element 300a may be pivoted or clamped to the bottom plate 12a and the bottom plate 22a, respectively, and the connecting element 100a is fixed relative to the first limit element 200a and the second limit element 300a, or even the connecting element 100a is directly pivotally connected to the bottom plate 12a and the bottom plate 22a, which is not limited by the present disclosure.
Referring to FIGS. 10 and 11, FIG. 10 is a perspective schematic view of a baby carrier in an unfolded state to which folding mechanisms according to a third embodiment of the present disclosure are applied, and FIG. 11 is a perspective schematic view of the baby carrier of FIG. 10 in a folded state. The folding mechanism 1b of this embodiment is suitable for the baby carrier 2b and similar to the folding mechanism 1a. The main difference between the folding mechanism 1b and the folding mechanism 1a is that, the folding mechanism 1b includes a connecting element 100b and a connecting hole H, and the first part 10b and the second part 20b are detachably connected to each other through the connecting element 100b and the connecting hole H.
Specifically, as shown in FIG. 11, the first part 10b includes an end face 16b in addition to the bottom plate 12b and the side wall 14b, and the end face 16b is formed at a side of the bottom plate 12b and the side wall 14b. Similarly, the second part 20b includes an end face 26b in addition to the bottom plate 22b and the side wall 24b, and the end face 26b is formed at a side of the bottom plate 22b and the side wall 24b. In this embodiment, the connecting element 100b is fixedly disposed on the end face 26b of the second part 20b and protrudes relative to the end face 26b, while the connecting hole H is formed on the end face 16b of the first part 10b, and the number and position of the connecting hole H correspond to those of the connecting element 100b. With this arrangement, when the user finishes using the baby carrier 2b, the second part 20b may be pulled out of the connecting hole H of the first part 10b together with the connecting element 100b, and the second part 20b is stacked on the first part 10b, so that the user can carry the baby carrier 2b with reduced longitudinal length at one time only by the handle 30b connected to the first part 10b, thus improving the convenience of using the baby carrier 2b.
In addition, a length of the second part 20b in the longitudinal direction L of this embodiment is less than or equal to a length of the first part 10b in the longitudinal direction L, and a length of the connecting element 100b protruding relative to the end face 26b is less than a length difference between the first part 10b and the second part 20b in the longitudinal direction L. With this arrangement, when the baby carrier 2b is in the folded state, a part of the connecting element 100b protruding relative to the end face 26b will not exceed the end face 16b, preventing the connecting element 100b from being damaged due to collision with external members.
It is worth mentioning that in this embodiment, the connecting element 100b is fixedly disposed on the end face 26b and the connecting hole H is formed on the end face 16b, however, the connecting element 100b may also be fixedly disposed on the end face 16b and the connecting hole H is formed on the end face 26b, which can also achieve the effect of detachably connecting the first part 10b and the second part 20b to each other.
Referring to FIG. 12, FIG. 12 is a perspective schematic view of a baby carrier in an unfolded state to which folding mechanisms according to a fourth embodiment of the present disclosure are applied. The folding mechanism 1c of this embodiment is suitable for the baby carrier 2c and similar to the folding mechanism 1b. The main difference between the folding mechanism 1c and the folding mechanism 1b is that, the folding mechanism 1c includes a connecting element 100c and a sliding rail R, and the first part 10c and the second part 20c are slidably connected with each other through the connecting element 100c and the sliding rail R.
Referring to FIGS. 13 to 17, FIG. 13 is a perspective schematic view of a first part of FIG. 12, FIG. 14 is a perspective schematic view of the first part of FIG. 13 from another perspective, FIG. 15 is a perspective schematic view of the sliding rail of FIG. 14, FIG. 16 is a perspective schematic view of the second part of FIG. 12, and FIG. 17 is a perspective schematic view of the connecting element of FIG. 16. In detail, the connecting element 100c is arranged outside of at least one of the bottom plate 22c and the side wall 24c of the second part 20c. In this embodiment, one connecting element 100c is arranged on an outer side of each of the bottom plate 22c and the side wall 24c, and the connecting element 100c includes a sliding portion 110c and a fixing portion 120c, wherein the sliding portion 110c is, for example, a roller or rollers and is pivotally connected to the fixing portion 120c, and the connecting element 100c is fixedly disposed outside of the bottom plate 22c and the side wall 24c by the fixing portion 120c, however, it is not limited by the above-mentioned embodiment in the present disclosure. In other possible embodiments, the sliding portion 110c may be directly and integrally formed on the bottom plate 22c and the side wall 24c. On the other hand, sliding rails R are arranged on the bottom plate 12c and the side wall 14c of the first part 10c, the number and position of which correspond to those of the connecting elements 100c, and the sliding portion 110c is slidably disposed on the sliding rail R. Thus, when the user finishes using the baby carrier 2c, the second part 20c may be received inside the first part 10c through the connecting elements 100c and the sliding rails R, thereby reducing a volume occupied by the baby carrier 2c in the folded state. It is worth mentioning that, in other possible embodiments, the connecting elements 100c may be arranged inside the first part 10c and the sliding rails R may be arranged outside the second part 20c, and the cooperation between the connecting element 100c and the sliding rail R may be replaced by an equivalent combination such as a slider and a sliding groove, which is not limited by the present disclosure. Preferably, the first part 10c is further provided with a guide post 18c, which can assist the connecting element 100c to be slidably disposed on the sliding rail R more stably.
In addition that the first part 10c and the second part 20c may slide freely, the folding structure 1c of this embodiment further includes functions of locking and unlocking the second part 20c at a specific position relative to the first part 10c. Referring to FIGS. 18 to 20, FIG. 18 is a cross-sectional schematic view of the baby carrier of FIG. 12, FIG. 19 is a schematic bottom view of the baby carrier of FIG. 12, and FIG. 20 is a schematic bottom view of the baby carrier of FIG. 19 with a cover removed. Specifically, the first part 10c is formed with a plurality of locking holes P, and the folding mechanism 1c further includes an operating element 300c, a cover 400c and at least one locking element 500c, wherein the operating element 300c is connected to the cover 400c and is formed with at least one limit groove 310c, and two limit grooves 310c are provided in this embodiment. The cover 400c is arranged on the second part 20c for the user to position the operating element 300c. In this embodiment, two locking elements 500c are provided, and each of the locking elements 500c includes a locking portion 510c and a limit portion 520c, and the limit portion 520c is slidably disposed in the limit groove 310c. When the locking element 500 slides relative to the first part 10c and aligns with the locking hole P, the locking portion 510c will be clamped to the locking hole P, and the second part 20c will be fixed relative to the first part 10c through the operating element 300c, achieving the effect of locking the second part 20c at a specific position.
Furthermore, as shown in FIGS. 19 and 20, the folding mechanism 1c further includes an elastic element 600c, wherein the elastic element 600c is, for example, a spring and is arranged between the operating element 300c and the locking element 500c, and in this embodiment, it is also arranged between the operating element 300c and the cover 400c. Preferably, an extending direction of the locking element 500c is inclined relative to the longitudinal direction L. In this embodiment, the extending direction of the locking element 500c is perpendicular to the longitudinal direction L, and an extending direction of the limit groove 310c is inclined relative to the longitudinal direction L and the extending direction of the locking element 500c. When the user wishes to release the locked state of the first part 10c and the second part 20c, the operating element 300c may be pulled to overcome an elastic force of the elastic element 600c and enable the operating element 300c to slide relative to the first part 10c. At this time, the limit portion 520c of the locking element 500c will slide along the limit groove 310c thereby moving from an outer end to an inner end of the limit groove 310c, so that the locking portion 510c is separated from the locking hole P to release the locked state of the first part 10c and the second part 20c. When the user releases his/her hand, the operating element 300c or the locking element 500c will be subjected to a restoring force of the elastic element 600c, so that the locking element 500c will be clamped into the nearest locking hole P again, and the first part 10c and the second part 20c will be locked with each other again.
Preferably, as shown in FIGS. 18 to 20, the operating element 300c is arranged outside of the bottom plate 22c of the second part 20c, the bottom plate 12c of the first part 10c is formed with an accommodating groove G, the locking holes P are disposed on a side of the accommodating groove G, and the operating element 300c and the locking element 500c are slidably disposed in the accommodating groove G. With this arrangement, during the operation, components such as the operating element 300c, the cover 400c and the locking element 500c will not affect the baby lying in the baby carrier 2c, and will not additionally increase the thickness of the bottom of the baby carrier 2c. It is worth mentioning that in other possible embodiments, positions of the accommodating groove G and the operating element 300c may also be reversed, which will not be limited by the present disclosure.
Referring to FIGS. 21 to 23, FIG. 21 is a perspective schematic view of a baby carrier in an unfolded state to which folding mechanisms according to a fifth embodiment of the present disclosure are applied, FIG. 22 is a schematic bottom view of the baby carrier of FIG. 21, and FIG. 23 is a schematic bottom view of the baby carrier of FIG. 22 with a base portion removed and a part of the folding portion folded. The folding mechanism 1d of this embodiment is applicable to a baby carrier 2d, which is a portable sleeping box or cradle and includes a first part 10d and a second part 20d, wherein the first part 10d includes a base portion 12d and a plurality of folding portions 14d pivotally connected to the base portion 12d, and the base portion 12d, at least one of the folding portions 14d and the second part 20d are sequentially arranged in the longitudinal direction L. Preferably, the baby carrier 2d further includes a handle 30d, wherein the handle 30d is connected to two folding portions 14d which are coplanar with the second part 20d, and can be held by the user to facilitate carrying the baby carrier 2d. Hereinafter, for a clearer explanation, the folding portion 14d to which the handle 30d is connected will be referred to as a side folding portion, and the folding portion 14d arranged sequentially with the base portion 12d and the second part 20d in the longitudinal direction L will be referred to as a bottom folding portion.
As shown in FIG. 23, the folding mechanism 1d includes a connecting element 100d, wherein the second part 20d is slidably connected to the base portion 12d through the connecting element 100d, and an extending direction of the connecting element 100d is parallel to the longitudinal direction L. In detail, the connecting element 100d of this embodiment is a pipe element and includes a first pipe 110d and a second pipe 120d, wherein the first pipe 110d is arranged on the base portion 12d and formed with a cavity 112d (see FIG. 24), and the second pipe 120d is connected to the second part 20d and slidably disposed in the cavity 112d. Furthermore, the first pipe 110d is embedded in the base portion 12d, and thus the bottom of the baby carrier 2d can be kept flat and arrangement of the connecting element 100d will not increase an additional thickness of the base portion 12d. With this arrangement, after the bottom folding portion and the side folding portion are pivoted and folded relative to the base portion 12d, the second part 20d will slide towards the base portion 12d along with the second pipe 120d sliding into the cavity 112d, thus achieving the effect of folding the baby carrier 2d. Preferably, the folding mechanism 1d further includes a pivot 16d, wherein the pivot 16d is, for example, a hinge or gemel, which assist the side folding portion to pivot and fold relative to the base portion 12d.
In addition to the above-mentioned effects, the folding mechanism 1d of this embodiment also has a locking function of locking the first part 10d and the second part 20d in the unfolded state and an unlocking function of releasing the above-mentioned locking. Referring to FIGS. 24 to 26, FIG. 24 is a cross-sectional schematic view of the baby carrier of FIG. 21, FIG. 25 is a schematic view of internal components of the baby carrier of FIG. 21, and FIG. 26 is a schematic view of the internal components of the baby carrier of FIG. 25 after the connecting elements are folded. In detail, the folding mechanism 1d of this embodiment further includes a driving element 300d, an operating element 400d, and a locking element 500d, wherein the driving element 300d is arranged on the side folding portion to drive the locking element 500d to lock or unlock the baby carrier 2d: the operating element 400d is connected to the driving element 300d and protrudes or recesses relative to a surface of the side folding portion, so as to facilitate a user to grasp or grip and thus operate the driving element 300d; and the locking element 500d is pivotally connected to the side folding portion and selectively clamped to the second part 20d.
Specifically, the side folding portion is formed with a first accommodating space S1, second accommodating spaces S2, and a sliding groove J, wherein the first accommodating space S1 is arranged at a central part of the side folding portion, and two second accommodating spaces S2 are arranged at left and right sides of the side folding portion respectively, and the sliding groove J is communicated with the first accommodating space S1 and the second accommodating spaces S2. Preferably, an extending direction of the sliding groove J is parallel to the longitudinal direction L, and the driving element 300d and the locking element 500d are respectively embedded in the sliding groove J and the second accommodating spaces S2 inside the side folding portion. As shown in FIGS. 25 and 26, the driving element 300d is formed with a limit groove 310d, and the locking element 500d includes an extending portion 510d and a bending portion 520d, wherein the extending portion 510d is formed with a limit feature 512d, such as a bump or a convex column, the bending portion 520d is bent relative to the extending portion 510d, and the limit feature 512d is slidably disposed in the limit groove 310d. On the other hand, the second part 20d includes a locking portion 22d, wherein the locking portion 22d is, for example, a convex point or a convex column fixedly disposed inside a wall surface of the second part 20d. When the baby carrier 2d is in the unfolded state, the bent portion 520d is clamped to the locking portion 22d, so that the second portion 20d is abutted against by the locking element 500d and the side folding portion in the longitudinal direction L and fixed relative to the first portion 10d.
Preferably, the handle 30d of this embodiment is formed with positioning portion(s) 32d, wherein the positioning portion 32d is, for example, a groove corresponding to a shape of one end of the driving element 300d. When the baby carrier 2d is in the unfolded state, a part of the handle 30d including the positioning portions 32d penetrates through the first accommodating space S1, and one end of the driving element 300d at each of left and right sides is clamped to one of the positioning portions 32d, thereby completely locking the baby carrier 2d. When the user wishes to release the locked state and fold the baby carrier 2d, driving elements 300d may slide along the sliding groove J to the left and right sides of the side folding portion for a certain distance through the operating portion 400d, so that the driving element 300d is separated from the positioning portion 32d, and then the handle 30d is pulled out of the side folding portion, so that the driving elements 300d on both sides may slide along the sliding groove J towards the first accommodating space S1 and abut against each other. At this time, the locking element 500d will be driven by the limit groove 310d through the limit feature 512d, so that the bending portion 520d is pivoted and rotated into the second accommodating space S2. Therefore, the bending portion 520d of the locking element 500d will no longer be clamped to the locking portion 22d of the second part 20d, so that the side folding portion may pivot relative to the base portion 12d.
Preferably, the folding mechanism 1d further includes an elastic element 600d, wherein the elastic element 600d is arranged between the side folding portion and the driving element 300d. With this arrangement, when the user pulls the operating portion 400d and pulls out the handle 30d, the driving element will automatically take the locking element 500d away from the second part 20d due to the reset abutment of the elastic element 600d, thereby releasing the clamping, and eliminating the process that the user needs to pull the driving element 300d by himself. When the user inserts the handle 30d into the first accommodating space S1 again, the driving elements 300d abutted against each other may temporarily slide towards both sides of the side folding portion under the elastic force of the elastic member 300d, and is automatically clamped into the positioning portion 32d.
FIGS. 27 to 32 are schematic views showing step-by-step flow of the baby carrier of FIG. 21 from the unfolded state to the folded state. First, the user may pull the operating portion inside the folding portion 14d (side folding portion), move the driving elements 300d to both sides of the side folding portions, and pull the handle 30d away from the side folding portions as shown in FIG. 28. After the user's hand releases, the driving element 300d will be pushed by the elastic element 600d to drive the locking element 500d to screw into the side folding portion. At this time, the user may fold the side folding portions on both sides relative to the base portion 12d as shown in FIGS. 29 and 30. Then, as shown in FIG. 31, the bottom folding portion is folded relative to the base portion 12d to make room for the second part 20d to slide, and then the second part 20d along with the second pipe 120d slides towards a central part of the base portion 12d, forming the folded state as shown in FIG. 32.
Compared with the related art, the folding mechanism 1 of the present disclosure includes a first connecting element 100 and a second connecting element 200, which are pivotally connected to the first part 10 and the second part 20, respectively, and selectively clamped to the locking portion 510 through the limit portion 310, so that the first part 10 may be folded relative to the second part 20. In addition, extending directions of the connecting elements 100a, 100b, 100c and 100d of the folding mechanisms 1a, 1b, 1c and 1d of the present disclosure are parallel to the longitudinal direction L of the first parts 10a, 10b, 10c and 10d and the second parts 20a, 20b, 20c and 20d, respectively, so that the second parts 20a, 20b, 20c and 20d may be pivoted, detached or slid and folded relative to the first parts 10a. 10b, 10c and 10d, respectively, thereby greatly reducing a volume occupied by any of the baby carriers 2a, 2b, 2c and 2d and improving the use convenience.
The present disclosure has been described in connection with the above preferred embodiments, however, the present disclosure is not limited to the above disclosed embodiments, and should cover various modifications and equivalent combinations according to the essence of the present disclosure.