阅读说明：本技术 用于婴儿载具的垫体及强化板 (Pad body and reinforced board for baby carrier ) 是由 喻福先 于 2016-08-25 设计创作，主要内容包括：本发明公开了一种用于婴儿载具的垫体及强化板,垫体包括至少一强化板,至少一强化板包括一板体以及一第一补强肋,第一补强肋位于板体的一底面上,第一补强肋包括一平直段以及一弯曲段,弯曲段自平直段延伸出,弯曲段的一端部与平直段及弯曲段的其中之一间存在一间隙,部分平直段与弯曲段之间形成一非封闭空间。因此,第一补强肋在受力时不会有应力集中现象发生,使得强化板不易断裂或破损。(The invention discloses a cushion body and a reinforced plate for a baby carrier, wherein the cushion body comprises at least one reinforced plate, the at least one reinforced plate comprises a plate body and a first reinforced rib, the first reinforced rib is positioned on one bottom surface of the plate body, the first reinforced rib comprises a straight section and a bent section, the bent section extends out from the straight section, a gap is formed between one end part of the bent section and one of the straight section and the bent section, and a non-closed space is formed between part of the straight section and the bent section. Therefore, the first reinforcing rib does not have stress concentration phenomenon when being stressed, so that the reinforcing plate is not easy to break or damage.)

1. A cushion for an infant carrier, the cushion comprising:

at least one reinforcing plate includes a plate body and a first reinforcement rib, first reinforcement rib is located on a bottom surface of plate body, first reinforcement rib includes a straight section and a crooked section, the crooked section certainly straight section extends, crooked section one end with straight section reaches there is a clearance, part between one of them of crooked section straight section with form a non-enclosure space between the crooked section.

2. The pad of claim 1, wherein said curved section comprises a first curved portion extending from said straight section, a first straight portion extending from said first curved portion, a second curved portion extending from said first straight portion, and a second straight portion extending from said second curved portion.

3. The pad of claim 2, wherein said curved section further comprises a third curved portion extending from said second straight portion and a third straight portion extending from said third curved portion, said end of said curved section being provided by said third straight portion.

4. The pad of claim 3, wherein said second straight portion is substantially parallel to said straight section.

5. The pad of claim 3, wherein the third straight portion is substantially parallel to the first straight portion.

6. The cushion body of claim 1, wherein each of the reinforcement panels further comprises a second reinforcing rib, and the second reinforcing rib has the same structure as the first reinforcing rib.

7. The cushion body according to claim 6, wherein the first reinforcing rib and the second reinforcing rib are separated from each other.

8. The pad of claim 1, wherein the first reinforcing rib is composed of a first side wall, a second side wall and a plurality of connecting portions, the first side wall and the second side wall are mutually side by side and separated, and the connecting portions are located between the first side wall and the second side wall and connect the first side wall and the second side wall.

9. The cushion body of claim 1, wherein the reinforcing plate further comprises a reinforcing structure, the reinforcing structure surrounding the reinforcing plate.

10. The cushion body of claim 9, wherein the reinforcing structure is a hollow structure.

11. The cushion body of claim 9, wherein at least one corner of the reinforcing structure and at least one corner of the reinforcing plate are separated from each other.

12. A reinforcement panel for use in a mattress of a baby carrier, the reinforcement panel comprising:

a plate body; and

a first reinforcement rib, be located on a bottom surface of plate body, first reinforcement rib includes a straight section and a crooked section, crooked section certainly straight section extends, a tip of crooked section with straight section reaches there is a clearance between one of them of crooked section, part straight section with form a non-enclosure space between the crooked section.

13. The reinforcement panel of claim 12, wherein the curved section includes a first curved portion extending from the straight section, a first straight portion extending from the first curved portion, a second curved portion extending from the first straight portion, and a second straight portion extending from the second curved portion.

14. The reinforcement panel of claim 13, wherein the curved section further comprises a third curved portion extending from the second straight portion and a third straight portion extending from the third curved portion, the end of the curved section being provided by the third straight portion.

15. The reinforcement panel of claim 14, wherein the second straight portion is substantially parallel to the straight section.

16. The reinforcement plate of claim 14, wherein the third straight portion is substantially parallel to the first straight portion.

17. The reinforced panel of claim 12, further comprising a second reinforcing rib having the same structure as the first reinforcing rib.

18. The reinforced panel of claim 17, wherein the first reinforcing rib and the second reinforcing rib are separated from each other.

19. The gusset of claim 12, wherein the first reinforcing rib is composed of a first side wall, a second side wall, and a plurality of connecting portions, the first side wall and the second side wall being juxtaposed and spaced apart from each other, the connecting portions being located between and connecting the first side wall and the second side wall.

20. The reinforcing plate of claim 12, wherein the reinforcing plate further comprises a reinforcing structure surrounding the reinforcing plate.

21. The reinforcement panel of claim 20, wherein the reinforcing structure is a hollow structure.

22. The reinforcing plate of claim 21, wherein at least one corner of the reinforcing structure and at least one corner of the reinforcing plate are separated from each other.

Technical Field

The present invention relates to a cushion and a reinforced board for a baby carriage, and more particularly, to a cushion and a reinforced board capable of improving structural strength and increasing air permeability.

Background

A crib is a very practical tool that may be used to seat an infant for a parent or caregiver. Generally, a baby bed is usually provided with a cushion body for a baby to lie on. Because the infants sometimes feel joyful in the crib, if the structural strength of the cushion body is insufficient, the safety of the infants is possibly threatened. In addition, when an infant lies on the cushion body, if the air permeability of the cushion body is insufficient, discomfort may be given to the infant, and choking may be caused by the mouth and nose of the infant being shielded, thereby causing troubles and psychological burdens to parents or caregivers.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: in order to overcome the disadvantages of the prior art, a cushion and a reinforced plate for an infant carrier are provided, which can improve the structural strength and the air permeability to solve the above problems.

The pad body for the baby carrier adopts the following technical scheme:

the pad body includes an at least reinforced board, at least one reinforced board includes a plate body and a first reinforcement rib, first reinforcement rib is located on a bottom surface of plate body, first reinforcement rib includes a straight section and a bent section, the bent section certainly straight section extends, the bent section one end with straight section reaches there is a clearance between one of them of bent section, part straight section with form a non-enclosure space between the bent section.

The bending section comprises a first bending part, a first straight part, a second bending part and a second straight part, the first bending part extends from the straight section, the first straight part extends from the first bending part, the second bending part extends from the first straight part, and the second straight part extends from the second bending part.

The curved section further includes a third curved portion extending from the second straight portion and a third straight portion extending from the third curved portion, the end of the curved section being provided by the third straight portion.

The second straight portion is substantially parallel to the straight section.

The third straight portion is substantially parallel to the first straight portion.

Each of the reinforcing plates further includes a second reinforcing rib having the same structure as the first reinforcing rib.

The first reinforcing rib and the second reinforcing rib are separated from each other.

The first reinforcing rib is composed of a first side wall, a second side wall and a plurality of connecting parts, the first side wall is arranged side by side with the second side wall and is separated from the second side wall, and the connecting parts are located between the first side wall and the second side wall and are connected with the first side wall and the second side wall.

The reinforcing plate further comprises a reinforcing structure, and the reinforcing structure surrounds the periphery of the reinforcing plate.

The reinforcing structure is a hollow structure.

At least one corner of the reinforcing structure is separated from at least one corner of the reinforcing plate.

The invention relates to a reinforced plate used in a cushion body of a baby carrier, which adopts the following technical scheme:

the reinforcing plate comprises a plate body and a first reinforcing rib. First reinforcement rib is located on a bottom surface of plate body, first reinforcement rib includes a straight section and a crooked section, crooked section certainly straight section extends, a tip of crooked section with straight section reaches there is a clearance between one of them of crooked section, part straight section with form a non-enclosure space between the crooked section.

The bending section comprises a first bending part, a first straight part, a second bending part and a second straight part, the first bending part extends from the straight section, the first straight part extends from the first bending part, the second bending part extends from the first straight part, and the second straight part extends from the second bending part.

The curved section further includes a third curved portion extending from the second straight portion and a third straight portion extending from the third curved portion, the end of the curved section being provided by the third straight portion.

The second straight portion is substantially parallel to the straight section.

The third straight portion is substantially parallel to the first straight portion

The reinforcing plate further comprises a second reinforcing rib, and the structure of the second reinforcing rib is the same as that of the first reinforcing rib.

The first reinforcing rib and the second reinforcing rib are separated from each other.

The first reinforcing rib is composed of a first side wall, a second side wall and a plurality of connecting parts, the first side wall is arranged side by side with the second side wall and is separated from the second side wall, and the connecting parts are located between the first side wall and the second side wall and are connected with the first side wall and the second side wall.

The reinforcing plate further comprises a reinforcing structure, and the reinforcing structure surrounds the periphery of the reinforcing plate.

The reinforcing structure is a hollow structure.

At least one corner of the reinforcing structure is separated from at least one corner of the reinforcing plate.

Therefore, according to the above technical solution, the cushion body and the reinforced plate for an infant carrier of the present invention have at least the following advantages and beneficial effects: the invention provides a reinforcing rib on the bottom surface of a reinforcing plate, which is used for improving the structural strength of the reinforcing plate. Because a gap exists between the end part of the bent section of the reinforcing rib and one of the straight section and the bent section (that is, the end part of the bent section of the reinforcing rib is not connected with the straight section or the bent section to form a non-closed space), the reinforcing rib does not have stress concentration phenomenon when stressed, so that the reinforcing plate is not easy to break or damage. The cushion body can be used for a baby crib, and can also be matched with different baby carriers such as a baby carriage, a bedside bed, a sleeping box, a rocking chair, a dining chair, a swing, an automobile chair, a bouncing chair, a high chair, a baby automobile chair and the like.

Drawings

Fig. 1 is a perspective view of a pad body according to a first embodiment of the present invention.

FIG. 2 is an interior view of the pad of FIG. 1.

Fig. 3 is an exploded view of the reinforcement panel and the ventilation layer of fig. 2.

Fig. 4 is a rear perspective view of a plurality of reinforcing panels of fig. 3.

Fig. 5 is a top view of one of the reinforcement plates of fig. 4.

Fig. 6 is a plan view of a reinforcing plate according to a second embodiment of the present invention.

Fig. 7 is a plan view of a reinforcing plate according to a third embodiment of the present invention.

Fig. 8 is an exploded view of a reinforcing sheet and a breathable layer according to a fourth embodiment of the present invention.

Fig. 9 is a front perspective view of a reinforcing panel of a fifth embodiment of the present invention.

Fig. 10 is a rear perspective view of the reinforcing plate of fig. 9.

Fig. 11 is a perspective view of a baby carriage according to a sixth embodiment of the present invention.

Fig. 12 is a front perspective view of a baby carrier according to a seventh embodiment of the present invention.

Fig. 13 is a rear perspective view of the infant carrier of fig. 12.

Fig. 14 is a perspective view of an infant carrier according to an eighth embodiment of the present invention.

Fig. 15 is a perspective view of a baby carriage according to a ninth embodiment of the present invention.

Fig. 16 is a perspective view of an infant carrier according to a tenth embodiment of the present invention.

Fig. 17 is a perspective view of an infant carrier according to an eleventh embodiment of the present invention.

Fig. 18 is a perspective view of an infant carrier according to a twelfth embodiment of the present invention.

Fig. 19 is a perspective view of an infant carrier according to a thirteenth embodiment of the present invention.

Fig. 20 is a perspective view of a baby carriage according to a fourteenth embodiment of the present invention.

Fig. 21 is a perspective view of a baby carriage according to a fifteenth embodiment of the invention.

Wherein the reference numerals are as follows:

1 pad body

2. 4, 5, 6, 7, 8, 9, 13, 15, 17 infant carrier

10. 10', 10', 30 reinforced plate

12 cloth cover

12a slide fastener

14. 14' breathable layer

20. 40, 50, 60, 70, 80, 90, 130, 150, 170 frame

100. 300 plate body

101 top surface

102 first reinforcing rib

104 second reinforcing rib

106. 306 through hole

108. 308 bottom surface

110 reinforcing structure

112. 114 corner

120 suture

200. 1300, 6040, 1700 upper support frame

202. 1302, 6042 lower support

204. 1304 upright post

302 reinforcing rib

400. 500, 600, 700, 800, 900 seats

402. 604, 802, 902 support frame

404. 710 tray

406 leg rest

408. 708, 1312, 2028 wheel

410 anti-slip block

412 operating member

414. 1702, 1705 connecting piece

502. 4000 back rest

504. 1506 headrest

506 flank

508. 706 armrest

510 cup holder

602 arc base

606 support

608 toy rod

610 brake piece

702. 4020 front foot rest

704. 4022 rear foot stool

712. 806, 1504 ceiling rod

714. 2004, 6044 locking mechanism

804 swinging device

904 bracket

1020 straight section

1022 bending section

1022a first bending part

1022b first straight part

1022c second bend

1022d second straight section

1022e third bend

1022f third straight section

1024 end part

1026 gap

1028 non-enclosed space

1030 first side wall

1032 second side wall

Connection 1034

1306. 1704 bed body

1308 cantilever

1310 space

1314 height adjusting mechanism

1500 casing

1502. 1706 handle

2000 upper supporting piece

2000a, 2000b handrail tube

2002 top corner

2006 push button

2020 lower support

2022 lower vertex angle

2024 base

2026 supporting foot

2030 engaging mechanism

4002 side plate

8040 swing arm

8042 base

8020 drive mechanism

9020 bending part

Detailed Description

Since the cushion of the present invention can be used in conjunction with a variety of different infant carriers (e.g., a stroller, a bedside bed, a sleeping box, a rocking chair, a dining chair, a swing, an automobile chair, a bouncer chair, a highchair, an infant automobile chair, etc.), the following description will first describe the cushion of the present invention, and then describe the infant carrier that can be used in conjunction with the cushion.

Referring to fig. 1 to 3, fig. 1 is a perspective view of a mat body 1 according to a first embodiment of the present invention, fig. 2 is an internal view of the mat body 1 in fig. 1, and fig. 3 is an exploded view of a reinforcing plate 10 and a ventilation layer 14 in fig. 2.

As shown in fig. 1 to 3, the cushion body 1 includes a plurality of reinforcing plates 10, a cloth cover 12 and a ventilation layer 14, wherein the plurality of reinforcing plates 10 and the ventilation layer 14 are disposed in the cloth cover 12, and the ventilation layer 14 is disposed on a top surface 101 of the plurality of reinforcing plates 10. In this embodiment, the reinforcing plate 10 may be made of metal or plastic, the cloth cover 12 may be breathable mesh cloth or other cloth, and the breathable layer 14 may be breathable cotton, breathable plastic or other breathable material. Further, the air-permeable layer 14 has elasticity. Therefore, when an infant lies on the cushion body 1, the air-permeable layer 14 can provide elastic support to the infant, thereby preventing the infant from feeling uncomfortable by directly contacting the reinforcement plate 10.

In the present embodiment, a plurality of reinforcing plates 10 are arranged side by side and separated from each other, and therefore, a plurality of stitches 120 may be formed on the cloth cover 12 such that each stitch 120 separates two adjacent reinforcing plates 10. Since the air-permeable layer 14 is located on the top surface 101 of the plurality of reinforcing plates 10, the sewing line 120 may sew the cloth cover 12 and the air-permeable layer 14 together. In this embodiment, the side of the cloth cover 12 may be provided with a zipper 12a, or other switch assembly, so that the user can remove the reinforcing sheet 10 from the cloth cover 12 or insert the reinforcing sheet 10 into the cloth cover 12. In addition, the user can fold or unfold the mat body 1 selectively along the stitches 120 to store or carry the mat body 1.

Referring to fig. 4 and 5, fig. 4 is a rear perspective view of a plurality of reinforcing plates 10 in fig. 3, and fig. 5 is a top view of one reinforcing plate 10 in fig. 4. As shown in fig. 4, each reinforcing plate 10 includes a plate body 100, a first reinforcing rib 102 and a second reinforcing rib 104. The plate body 100 is formed with a plurality of through holes 106. The first reinforcing rib 102 and the second reinforcing rib 104 are located on the bottom surface 108 of the panel body 100. In the present embodiment, the first and second reinforcing ribs 102 and 104 are symmetrically located on the bottom surface 108 of the panel body 100, and the first and second reinforcing ribs 102 and 104 are spaced apart from each other. Note that the second reinforcing rib 104 has the same structure as the first reinforcing rib 102, and therefore, the technical features of the present invention will be described below using the first reinforcing rib 102.

As shown in fig. 5, the first reinforcing rib 102 includes a straight section 1020 and a curved section 1022, wherein the curved section 1022 extends from the straight section 1020, and a gap 1026 exists between an end 1024 of the curved section 1022 and the straight section 1020. In this embodiment, the curved section 1022 may include a first curved portion 1022a, a first straight portion 1022b, a second curved portion 1022c, a second straight portion 1022d, a third curved portion 1022e, and a third straight portion 1022f, wherein the first curved portion 1022a extends from the straight section 1020, the first straight portion 1022b extends from the first curved portion 1022a, the second curved portion 1022c extends from the first straight portion 1022b, the second straight portion 1022d extends from the second curved portion 1022c, the third curved portion 1022e extends from the second straight portion 1022d, and the third straight portion 1022f extends from the third curved portion 1022 e. Further, the end 1024 of the curved section 1022 is provided by a third straight section 1022 f. In the present embodiment, the second straight portion 1022d is substantially parallel to the straight section 1020, the third straight portion 1022f is substantially parallel to the first straight portion 1022b, and the first straight portion 1022b and the third straight portion 1022f are substantially perpendicular to the straight section 1020. It should be noted that the second straight portion 1022d is not limited to the parallel straight section 1020, and the first straight portion 1022b and the third straight portion 1022f are not limited to the vertical straight section 1020. If the straight section is directly connected due to lack of the bending section, the stress concentration phenomenon is easily caused by stress to cause damage. The bent section is provided to make the reinforced plate 10 less prone to fracture or breakage. Therefore, if the length of the reinforcing rib is to be increased over a limited area of the reinforcing plate, the number of bent sections must be correspondingly increased to increase the strength of the reinforcing rib.

In the present embodiment, the first reinforcing rib 102 may be formed by a first side wall 1030, a second side wall 1032, and a plurality of connecting portions 1034. As shown in fig. 5, the first side wall 1028 and the second side wall 1030 are positioned side by side and spaced apart from each other. The connection 1034 is located between the first and second side walls 1030 and 1032 and connects the first and second side walls 1030 and 1032. In this embodiment, the connecting portion 1034 has a thickness substantially the same as that of the first and second sidewalls 1028 and 1030 and is substantially perpendicular to the first and second sidewalls 1028 and 1030. Therefore, the thin-walled structure of the first reinforcing rib 102 can achieve a structural strength close to that of the solid structure, which not only saves the material of the first reinforcing rib 102, but also takes into account the structural strength of the first reinforcing rib 102.

Since the gap 1026 exists between the end 1024 of the curved section 1022 of the first reinforcing rib 102 and the straight section 1020 (that is, the end 1024 of the curved section 1022 of the first reinforcing rib 102 is not connected to the straight section 1020), the stress concentration phenomenon does not occur in the first reinforcing rib 102 when the force is applied, so that the reinforced plate 10 is not easily broken or damaged.

In addition, each reinforcing plate 10 may further include a reinforcing structure 110, and the reinforcing structure 110 surrounds the reinforcing plate 10. In the present embodiment, the reinforcing structure 110 may be a hollow structure. For example, the reinforcing structure 110 may be formed into a hollow structure by using a gas-assisted injection molding technique, so as to save the material of the reinforcing structure 110. The reinforcing structure 110 may further increase the structural strength of the reinforcing plate 10. Furthermore, at least one corner 112 of the reinforcing structure 110 and at least one corner 114 of the reinforcing plate 10 can be separated from each other. That is, the curvature of the corners 112 and 114 are different, so that a space can be created to increase the yield of the gas-assisted injection molding, but not limited thereto.

As shown in fig. 5, the first reinforcing rib 102 is substantially P-shaped, such that a non-enclosed space 1028 is formed between the partially straight section 1020 and the curved section 1022. At least two vias 106 of the plurality of vias 106 are located in the non-enclosed space 1028. Since the plurality of through holes 106 are located in the non-closed space 1028 formed by the first reinforcing ribs 102, when the infant lies on the cushion body 1, the plurality of through holes 106 located in the non-closed space 1028 can increase air permeability, and reduce the risk of suffocation due to the shielding of the mouth and nose of the infant by the cushion body 1. In addition, the plurality of through holes 106 may have at least two different sizes to increase the arrangement density of the through holes 106, thereby increasing the air permeability. Preferably, the through holes 106 of different sizes may be staggered.

Referring to fig. 6, fig. 6 is a top view of a reinforcing plate 10' according to a second embodiment of the present invention. The reinforced plate 10 'is mainly different from the reinforced plate 10 described above in that the first reinforcing rib 102 and the second reinforcing rib 104 of the reinforced plate 10' are both hollow structures formed by gas-assisted injection molding, as shown in fig. 6. However, the present invention is not limited thereto, and in other words, the first reinforcing rib 102 and the second reinforcing rib 104 may be designed to be solid or hollow according to practical applications.

Referring to fig. 7, fig. 7 is a top view of a reinforcing plate 10 ″ according to a third embodiment of the present invention. Reinforcing plate 10 "differs from reinforcing plate 10' described above primarily in that there is a gap 1026 between end 1024 of curved segment 1022 of reinforcing plate 10" and curved segment 1022 itself, as shown in fig. 7. Since the gap 1026 exists between the end 1024 of the curved section 1022 of the first reinforcing rib 102 and the curved section 1022 (that is, the end 1024 of the curved section 1022 of the first reinforcing rib 102 is not connected to the curved section 1022), the stress concentration phenomenon does not occur in the first reinforcing rib 102 when the force is applied, so that the reinforced plate 10 is not easily broken or damaged.

According to the embodiment shown in fig. 6 and 7, the end 1024 of the curved segment 1022 may optionally have a gap 1026 with one of the straight segment 1020 and the curved segment 1022, depending on the application.

Referring to fig. 8, fig. 8 is an exploded view of a reinforcement plate 10 and a ventilation layer 14' according to a fourth embodiment of the present invention. The embodiment shown in fig. 8 differs from the embodiment shown in fig. 3 mainly in that the embodiment shown in fig. 8 comprises a plurality of separately separated breather layers 14'. The plurality of air-permeable layers 14 'may be respectively disposed in the cloth cover 12, and each air-permeable layer 14' may be respectively disposed on the top surface 101 of one of the plurality of reinforcing plates 10. In this embodiment, the stitching 120 may or may not stitch the sleeve 12 and the breathable layer 14' together, depending on the application.

According to the embodiments shown in fig. 3 and 8, the inventive ventilation layer can be designed as a single-piece ventilation layer 14 or as a multi-piece ventilation layer 14', depending on the application.

Referring to fig. 9 and 10, fig. 9 is a front perspective view of a reinforcing plate 30 according to a fifth embodiment of the present invention, and fig. 10 is a rear perspective view of the reinforcing plate 30 in fig. 9. As shown in fig. 9 and 10, the reinforced board 30 includes a board body 300 and a reinforcing rib 302. The plate body 300 is formed with a plurality of through holes 306. The reinforcing rib 302 is located on the bottom surface 308 of the plate body 300. In the present embodiment, the reinforcing rib 302 is directly formed to extend from the edge of the through hole 306, and thus, the shape and size of the reinforcing rib 302 correspond to those of the through hole 306. The present invention can replace the reinforcing plate 10 of the mat body 1 with the reinforcing plate 30. Since the through holes 306 are distributed in a honeycomb shape, the air permeability of the reinforcing plate 30 can be effectively increased. In addition, since the reinforcing ribs 302 are also distributed in a honeycomb shape, the structural strength of the reinforcing plate 30 can be effectively improved.

Referring to fig. 11, fig. 11 is a perspective view of a baby carrier 2 according to a sixth embodiment of the present invention. As shown in fig. 11, the infant carrier 2 includes a frame 20. In the present embodiment, the baby carriage 2 may be a baby bed. In addition, the infant carrier 2 further comprises the pad body. Since the technical features of the cushion body have been described in detail above, only the technical features of the frame body 20 will be described below.

As shown in fig. 11, the frame body 20 includes an upper support frame 200, a lower support frame 202 and a plurality of columns 204, wherein two ends of each column 204 are respectively connected to the upper support frame 200 and the lower support frame 202. In this embodiment, the upper support frame 200 may include a plurality of upper support members 2000 and a plurality of upper corners 2002, wherein the plurality of upper support members 2000 and the plurality of upper corners 2002 are connected to each other to form a closed space. In addition, the lower supporting frame 202 may include a plurality of lower supporting members 2020, a plurality of lower corners 2022 and a base 2024, wherein two ends of each of the lower supporting members 2020 are respectively connected to the lower corners 2022 and the base 2024. One end of each upright 204 may be connected to a corresponding upper vertex angle 2002, and the other end of each upright 204 may be connected to a corresponding lower vertex angle 2022.

In this embodiment, the lower support frame 202 may further include a plurality of support feet 2026 and a plurality of wheels 2028. One end of each of the supporting legs 2026 is connected to the base 2024, and the other end of each of the supporting legs 2026 is bent away from the upper supporting frame 200. Each wheel 2028 is pivotally connected to a corresponding lower corner 2022. Thus, the frame 20 can be moved on the support surface by the wheels 2028. The support feet 2026 may assist in supporting the frame 20 on a support surface when the frame 20 is moved to a fixed point.

In this embodiment, the upper support frame 200 may further include a plurality of locking mechanisms 2004, wherein the locking mechanisms 2004 are disposed on the upper support 2000. Each upper support 2000 may include two handrail members 2000a, 2000b, wherein two ends of each handrail member 2000a, 2000b are respectively pivoted to the corresponding upper vertex 2002 and the locking mechanism 2004. Additionally, the locking mechanism 2004 may have a button 2006. When the armrest tubes 2000a, 2000b are unfolded from each other, the locking mechanism 2004 may lock the armrest tubes 2000a, 2000b so that the armrest tubes 2000a, 2000b maintain the unfolded state shown in fig. 11. When the button 2006 of the locking mechanism 2004 is pressed, the locking mechanism 2004 releases the two handrail members 2000a, 2000b so that the two handrail members 2000a, 2000b can rotate relatively to fold.

In this embodiment, two ends of each lower supporting member 2020 can be respectively pivoted to the corresponding lower corner 2022 and the base 2024. In addition, the base 2024 may include a snap mechanism 2030. When the lower support 2020 is unfolded with respect to the lower vertex 2022 and the base 2024, the clamping mechanism 2030 is clamped and fixed to the lower support 2020, so that the lower support 2020 maintains the unfolded state shown in fig. 11. When the engaging mechanism 2030 disengages from the lower supporter 2020, the lower supporter 2020 can be folded by rotating relative to the lower corner 2022 and the base 2024.

Therefore, when the user wants to store or transport the frame body 20, the user can press the button 2006 of the locking mechanism 2004 to release the handle pipes 2000a and 2000b, and operate the engaging mechanism 2030 to disengage from the lower supporter 2020. At this time, the handrail members 2000a and 2000b can be folded by rotating relatively, and the lower supporting member 2020 can be folded by rotating relatively to the lower vertex 2022 and the base 2024, so as to reduce the overall volume of the frame body 20 for convenient storage or transportation.

In this embodiment, a support plate (not shown) may be disposed in the frame 20, and then the pad body is disposed on the support plate, so that the pad body is disposed on the frame 20. It should be noted that the reinforcing plate disposed in the cushion body may be a single reinforcing plate, and is not limited to a plurality of reinforcing plates. In other words, the present invention can vary the size of the reinforcing plates according to the actual application, so that the size of a single reinforcing plate can be matched to the size of the frame 20.

Referring to fig. 12 and 13, fig. 12 is a front perspective view of a baby carriage 4 according to a seventh embodiment of the present invention, and fig. 13 is a rear perspective view of the baby carriage 4 in fig. 12. As shown in fig. 12 and 13, the infant carrier 4 includes a frame 40. In this embodiment, the baby carriage 4 may be a high chair. In addition, the infant carrier 4 further includes the pad body. Since the technical features of the cushion body have been described in detail above, only the technical features of the frame body 40 will be described below.

As shown in fig. 12, the frame 40 includes a seat 400, a support frame 402, a tray 404, a leg rest 406, at least one wheel 408, and at least one anti-slip block 410. The seat 400 is disposed on a support frame 402. The tray 404 is disposed on the seat 400. A leg rest 406 is attached to the bottom of the seat 400. In this embodiment, the supporting frame 402 may comprise a front stand 4020 and a rear stand 4022, wherein the front stand 4020 and the rear stand 4022 are pivotally connected to each other, so that the front stand 4020 and the rear stand 4022 can be unfolded or folded. The wheels 408 may be pivotally connected to the front foot stand 4020. The anti-slip block 410 may be connected to the rear foot 4022. Thus, the frame 40 may be moved on the support surface by the wheels 408. The anti-slip blocks 410 prevent the frame 40 from moving on the supporting surface when the frame 40 moves to a fixed point.

As shown in fig. 13, the frame 40 may further include an operating member 412, a connecting member 414 and an engaging member (not shown), wherein the operating member 412, the connecting member 414 and the engaging member are disposed on the backrest 4000 of the seat 400. The two ends of the connecting member 414 are connected to the operating member 412 and the engaging member, respectively. In addition, the side plate 4002 of the seat 400 has a plurality of engaging holes (not shown). When the engaging member is engaged with one of the engaging holes, the backrest 4000 of the seat 400 can be maintained at the inclined angle shown in fig. 13. When the user wants to adjust the tilting angle of the backrest 4000, the user can pull the operating member 412 upward. When the operating member 412 is operated to pull the connecting member 414, the engaging member is disengaged from the engaging hole, so that the backrest 4000 can move relative to the side plate 4002, thereby adjusting the inclination angle of the backrest 4000.

In this embodiment, the cushion body can be disposed on the seat 400 of the frame body 40. It should be noted that the reinforcing plate disposed in the cushion body may be a single reinforcing plate, and is not limited to a plurality of reinforcing plates. In other words, the present invention can vary the size of the reinforcing plate according to the actual application, so that the size of a single reinforcing plate can be matched to the size of the seat 400 of the frame 40.

Referring to fig. 14, fig. 14 is a perspective view of a baby carrier 5 according to an eighth embodiment of the present invention. As shown in fig. 14, the infant carrier 5 includes a frame 50. In the present embodiment, the infant carrier 5 may be a car seat. In addition, the infant carrier 5 further includes the pad body. Since the technical features of the cushion body have been described in detail above, only the technical features of the frame body 50 will be described below.

As shown in fig. 14, the frame 50 includes a seat 500, a backrest 502, a head rest 504, two side wings 506, two armrests 508 and a cup holder 510. The backrest 502 is provided on the seat 500. The headrest 504 is disposed on the backrest 502. Two side wings 506 are disposed on two sides of the backrest 502. The armrests 508 are disposed on two sides of the chair 500. The cup holder 510 is provided at one side of the seat 500.

In this embodiment, the cushion body can be disposed on the seat 500 of the frame 50. It should be noted that the reinforcing plate disposed in the cushion body may be a single reinforcing plate, and is not limited to a plurality of reinforcing plates. In other words, the present invention can vary the size of the reinforcing plate according to the actual application, so that the size of a single reinforcing plate can be matched to the size of the seat 500 of the frame 50.

Referring to fig. 15, fig. 15 is a perspective view of a baby carriage 6 according to a ninth embodiment of the present invention. As shown in fig. 15, the infant carrier 6 includes a frame 60. In this embodiment, the infant carrier 6 may be a swing. In addition, the infant carrier 6 further includes the pad body. Since the technical features of the cushion body have been described in detail above, only the technical features of the frame body 60 will be described below.

As shown in fig. 15, the frame 60 includes a seat 600, an arc-shaped base 602, a supporting frame 604 and a supporting member 606. In the present embodiment, the seat 600 may have a ring shape, but is not limited thereto. The supporting frame 604 is connected to the middle portions of the seat 600 and the arc-shaped base 602, and the supporting member 606 is pivotally connected to the front end portions of the seat 600 and the arc-shaped base 602. In this embodiment, the support frame 604 may include an upper support frame 6040, a lower support frame 6042 and a locking mechanism 6044. The upper support 6040 is attached to the seat 600 and the lower support 6042 is attached to the arc base 602. The upper support 6040 and the lower support 6042 may be U-shaped, but not limited thereto. The locking mechanism 6044 is connected to the upper support frame 6040 and the lower support frame 6042. When the upper support frame 6040 and the lower support frame 6042 are unfolded from each other, the locking mechanism 6044 may lock the upper support frame 6040 and the lower support frame 6042 so that the upper support frame 6040 and the lower support frame 6042 maintain the unfolded state shown in fig. 15. When the locking mechanism 6044 releases the upper support 6040 and the lower support 6042, the upper support 6040 and the lower support 6042 can bring the seat 600 to fold relative to the arc-shaped base 602.

In this embodiment, the frame 60 may further include a toy bar 608, wherein the toy bar 608 may be disposed on the seat 600 for hanging the toy. Preferably, the toy bar 608 may be pivotally attached to the seat 600.

In this embodiment, the frame 60 may further include two brake members 610, wherein the two brake members 610 are pivotally connected to two ends of the arc-shaped base 602. When the two brake members 610 are deployed relative to the curved base 602 in the deployed state shown in fig. 15, the two brake members 610 inhibit the curved base 602 from wobbling relative to the support surface. On the other hand, when the two brake members 610 are folded by rotating relative to the arc-shaped base 602, the arc-shaped base 602 can swing relative to the supporting surface.

When the user wants to store or transport the rack 60, the user can operate the locking mechanism 6044 to unlock the upper support 6040 and the lower support 6042. At this time, the chair 600 and the arc-shaped base 602 can be folded relatively. Then, the user can rotate the toy bar 608 to fold with respect to the seat 600 and rotate the two brake members 610 to fold with respect to the arc-shaped base 602, thereby reducing the overall volume of the frame body 60 for convenient storage or transportation.

In this embodiment, a support plate (not shown) may be disposed in the seat 600, and then the cushion body is disposed on the support plate, so that the cushion body is disposed on the frame body 60. It should be noted that the reinforcing plate disposed in the cushion body may be a single reinforcing plate, and is not limited to a plurality of reinforcing plates. In other words, the present invention can vary the size of the reinforcing plate according to the actual application, so that the size of a single reinforcing plate can be matched to the size of the seat 600 of the frame body 60.

Referring to fig. 16, fig. 16 is a perspective view of a baby carriage 7 according to a tenth embodiment of the present invention. As shown in fig. 16, the infant carrier 7 includes a frame 70. In the present embodiment, the baby carriage 7 may be a baby carriage. In addition, the infant carrier 7 further includes the pad body. Since the technical features of the cushion body have been described in detail above, only the technical features of the frame body 70 will be described below.

As shown in fig. 16, the frame 70 includes a seat 700, a front foot rest 702, a rear foot rest 704, a handlebar 706, and a plurality of wheels 708. The seat 700 is disposed on a front foot rest 702. The rear leg 704 is pivotally connected to the front leg 702 such that the front leg 702 and the rear leg 704 can be unfolded or folded with respect to each other. The rider 706 is disposed on the front foot rest 702. The wheels 708 are pivotally connected to the front stand 702 and the rear stand 704, respectively. Thus, the carriage 70 may be moved on the support surface by the wheels 708.

In this embodiment, the frame 70 may further include a tray 710 and a canopy rod 712. The tray 710 is disposed on the chair 700, and the canopy rod 712 is pivotally connected to the chair 700. In practice, a canopy may be provided over the canopy rod 712 to provide a shelter function.

In this embodiment, the frame 70 may further include a locking mechanism 714 disposed at the pivotal connection between the front stand 702 and the rear stand 704. When the front and rear foot rests 702, 704 are extended from each other, the locking mechanism 714 may lock the front and rear foot rests 702, 704 such that the front and rear foot rests 702, 704 maintain the extended state shown in fig. 16. When the locking mechanism 714 releases the front stand 702 and the rear stand 704, the front stand 702 and the rear stand 704 can be folded relatively. Thus, when the user wants to store or transport the rack 70, the user can operate the locking mechanism 714 to unlock the front and rear foot rests 702, 704. At this time, the front stand 702 and the rear stand 704 are folded relatively, thereby reducing the overall volume of the frame body 70 for convenient storage or transportation.

In this embodiment, a support plate (not shown) may be disposed in the seat 700, and then the cushion body is disposed on the support plate, so that the cushion body is disposed on the frame body 70. It should be noted that the reinforcing plate disposed in the cushion body may be a single reinforcing plate, and is not limited to a plurality of reinforcing plates. In other words, the present invention can vary the size of the reinforcing plate according to the actual application, so that the size of a single reinforcing plate can be matched to the size of the seat 700 of the frame 70.

Referring to fig. 17, fig. 17 is a perspective view of a baby carrier 8 according to an eleventh embodiment of the present invention. As shown in fig. 17, the infant carrier 8 includes a frame 80. In the present embodiment, the baby carriage 8 may be a swing. In addition, the infant carrier 8 further includes the pad body. Since the technical features of the cushion body have been described in detail above, only the technical features of the frame body 80 will be described below.

As shown in fig. 17, the frame 80 includes a seat 800, a support frame 802 and a swing device 804. The swing device 804 is pivotally connected to the supporting frame 802, such that the swing device 804 can swing with respect to the supporting frame 802. The seat 800 is disposed on the swing device 804. Therefore, when the swing device 804 swings relative to the supporting frame 802, the swing device 804 drives the seat 800 to swing.

In this embodiment, the swing device 804 can include two swing arms 8040 and a base 8042, wherein the two swing arms 8040 are symmetrically pivoted to the support frame 802, the base 8042 is connected to the two swing arms 8040, and the seat 800 is disposed on the base 8042. In addition, the support frame 802 may include a driving mechanism 8020, wherein the swing arm 8040 is pivotally connected to the driving mechanism 8020. The driving mechanism 8020 can drive the swing arm 8040 to swing and control the swing amplitude of the swing arm 8040.

In this embodiment, the frame 80 may further include a canopy rod 806, wherein the canopy rod 806 is pivotally connected to the seat 800. In practice, a canopy may be provided over the canopy rod 806 to provide a shading function.

In this embodiment, the cushion body can be disposed on the seat 800 of the frame 80. It should be noted that the reinforcing plate disposed in the cushion body may be a single reinforcing plate, and is not limited to a plurality of reinforcing plates. In other words, the present invention can vary the size of the reinforcing plates according to the actual application, so that the size of a single reinforcing plate can be matched to the size of the seat 800 of the frame 80.

Referring to fig. 18, fig. 18 is a perspective view of a baby carrier 9 according to a twelfth embodiment of the present invention. As shown in fig. 18, the infant carrier 9 includes a frame 90. In this embodiment, the baby carriage 9 may be a bouncer. In addition, the infant carrier 9 further includes the pad body. Since the technical features of the cushion body have been described in detail above, only the technical features of the frame body 90 will be described below.

As shown in fig. 18, the frame 90 includes a seat 900 and a support 902. The seat 900 is disposed on the support frame 902. The supporting frame 902 has two bending parts 9020. When the seat 900 is pressed by a force, the two bending portions 9020 are deformed by the force to generate an elastic restoring force, so as to rebound the seat 900 upwards, so that the seat 900 generates a bouncing action.

In this embodiment, the frame 90 may further include a plurality of brackets 904, which are disposed on the supporting frame 902, so that the frame 90 can be stably placed on the supporting surface through the brackets 904.

In this embodiment, a support plate (not shown) may be disposed in the seat 900, and then the cushion body is disposed on the support plate, so that the cushion body is disposed on the frame body 90. It should be noted that the reinforcing plate disposed in the cushion body may be a single reinforcing plate, and is not limited to a plurality of reinforcing plates. In other words, the present invention can vary the size of the stiffener according to the application, so that the size of a single stiffener can be matched to the size of the seat 900 of the frame 90.

Referring to fig. 19, fig. 19 is a perspective view of a baby carrier 13 according to a thirteenth embodiment of the present invention. As shown in fig. 19, the infant carrier 13 includes a frame 130. In this embodiment, the baby carriage 13 may be a bedside bed. In addition, the infant carrier 13 further includes the pad body. Since the technical features of the pad body have been described in detail above, only the technical features of the frame body 130 will be described below.

As shown in fig. 19, the frame 130 includes an upper support frame 1300, a lower support frame 1302, two columns 1304 and a bed 1306. The two vertical columns 1304 are oppositely connected to the upper support frame 1300 and the lower support frame 1302, so that the upper support frame 1300, the lower support frame 1302 and the two vertical columns 1304 are U-shaped. The bed 1306 is disposed on the upper support frame 1300. In this embodiment, the frame 130 may further include a plurality of cantilevers 1308. Two ends of each suspension arm 1308 are respectively pivoted to the upper support frame 1300 and the bed 1306, so that the bed 1306 can be disposed on the upper support frame 1300 by a plurality of suspension arms 1308. Since the two ends of the suspension arm 1308 are pivoted to the upper support frame 1300 and the bed 1306, respectively, the bed 1306 can swing relative to the upper support frame 1300 through the suspension arm 1308.

In this embodiment, a space 1310 is formed between the bed 1306 and the lower support frame 1302, so that the lower support frame 1302 can be pushed under a bed (not shown) to make the bed 1306 located on the bed, so that an adult lying on the bed can take care of an infant on the bed 1306 nearby. In addition, the frame 130 further comprises a plurality of wheels 1312 pivotally connected to the lower support frame 1302. Thus, the frame 130 may be moved on the support surface by the wheels 1312.

In this embodiment, the frame 130 may further include two height adjusting mechanisms 1314, wherein each height adjusting mechanism 1314 is disposed on the corresponding pillar 1304. Height adjustment mechanism 1314 may be operated to adjust the height of mast 1304. In other words, upright 1304 is telescopic. The height adjustment mechanism 1314 may be operated by a user to adjust the height of the upright 1304, and thus the overall height of the frame 130.

In this embodiment, the cushion body can be disposed on the bed 1306 of the frame 130. It should be noted that the reinforcing plate disposed in the cushion body may be a single reinforcing plate, and is not limited to a plurality of reinforcing plates. In other words, the present invention can vary the size of the reinforcing plates according to the actual application, so that the size of a single reinforcing plate can be matched to the size of the bed 1306 of the frame 130.

Referring to fig. 20, fig. 20 is a perspective view of a baby carrier 15 according to a fourteenth embodiment of the invention. As shown in fig. 20, the infant carrier 15 includes a frame 150. In the present embodiment, the infant carrier 15 may be an infant car seat. In addition, the infant carrier 15 further includes the pad body. Since the technical features of the pad body have been described in detail above, only the technical features of the frame body 150 will be described below.

As shown in FIG. 20, the frame 150 includes a housing 1500, a handle 1502, a canopy rod 1504, and a headrest 1506. The handle 1502 is pivotally connected to the housing 1500. The user can hold the handle 1502 to transport the infant carrier 15. The canopy rod 1504 is pivotally connected to the housing 1500. In practice, a canopy may be provided over the canopy rod 1504 to provide a shelter function. The headrest 1506 is disposed in the housing 1500. When the infant is seated in the housing 1500, the head of the infant can rest on the headrest 1506.

In this embodiment, the pad body may be disposed on the housing 1500 of the frame body 150. It should be noted that the reinforcing plate disposed in the cushion body may be a single reinforcing plate, and is not limited to a plurality of reinforcing plates. In other words, the present invention can change the size of the reinforcing plates according to the actual application, so that the size of a single reinforcing plate can be matched with the size of the housing 1500 of the rack 150.

Referring to fig. 21, fig. 21 is a perspective view of a baby carrier 17 according to a fifteenth embodiment of the invention. As shown in fig. 21, the infant carrier 17 includes a frame 170. In this embodiment, the infant carrier 17 may be a sleeping box, and may be used in combination with or separately from a stroller. In addition, the infant carrier 17 further includes the pad body. Since the technical features of the pad body have been described in detail above, only the technical features of the frame body 170 will be described below.

As shown in fig. 21, the frame 170 includes an upper supporting frame 1700, two connecting members 1702, a bed 1704 and a handle 1706. Two connecting pieces 1702 connect the upper supporting frame 1700 and the bed 1704. The handle 1706 is pivotally connected to the upper supporting frame 1700 via a connecting member 1705. The user can hold the handle 1706 to transport the infant carrier 17. In practical applications, the seat cloth may be used to cover the frame 170. The link 1705 may furthermore be designed to be used in combination with a compliant link on a stroller, i.e. in combination with a stroller.

In this embodiment, the cushion body may be disposed on the bed 1704 of the frame 170. It should be noted that the reinforcing plate disposed in the cushion body may be a single reinforcing plate, and is not limited to a plurality of reinforcing plates. In other words, the present invention can change the size of the reinforcing plates according to the actual application, so that the size of a single reinforcing plate can be matched to the size of the bed 1704 of the rack 170.

Therefore, according to the above technical solution, the cushion body and the reinforced plate for an infant carrier of the present invention have at least the following advantages and beneficial effects: the invention provides a reinforcing rib on the bottom surface of a reinforcing plate, which is used for improving the structural strength of the reinforcing plate. Because a gap exists between the end part of the bent section of the reinforcing rib and one of the straight section and the bent section (that is, the end part of the bent section of the reinforcing rib is not connected with the straight section or the bent section to form a non-closed space), the reinforcing rib does not have stress concentration phenomenon when stressed, so that the reinforcing plate is not easy to break or damage. The cushion body can be used for a baby crib, and can also be matched with different baby carriers such as a baby carriage, a bedside bed, a sleeping box, a rocking chair, a dining chair, a swing, an automobile chair, a bouncing chair, a high chair, a baby automobile chair and the like.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.