Baby carrier

The baby carrier's rotating structure addresses the fixed position issue of traditional safety seats by enabling adjustable positioning, improving the baby's visual experience and caregiver access.

JP2026095589APending Publication Date: 2026-06-11BAMBINO PREZIOSO SWITZERLAND AG

Patent Information

Authority / Receiving Office
JP · JP
Patent Type
Applications
Current Assignee / Owner
BAMBINO PREZIOSO SWITZERLAND AG
Filing Date
2026-04-01
Publication Date
2026-06-11

AI Technical Summary

Technical Problem

Existing baby safety seats in vehicles are fixed and cannot rotate, limiting the baby's visual experience and complicating caregiver access.

Method used

A baby carrier with a rotating structure comprising a first and second pedestal, where the second pedestal rotates relative to the first and locks into different positions using a telescopic positioning member and positioning holes, allowing the carrier body to adjust its position for varied visual experiences and easier caregiver access.

Benefits of technology

The rotating structure provides multiple viewing angles for the baby and facilitates caregiver interaction, enhancing usability and safety by allowing the carrier to be positioned optimally for both.

✦ Generated by Eureka AI based on patent content.

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Abstract

To provide a baby carrier having a rotating structure that allows the carrier body to be rotated to different positions relative to the vehicle seat. [Solution] The present invention provides a baby carrier with a rotating structure, the rotating structure comprising a first base, a second base rotatably mounted on the first base, and a stand connected to the first base. The first base is provided with a locking member that locks to the second base or the stand, and the stand has a locked position and an unlocked position that cooperate with the locking member, preventing the rotation of the second base in the locked position and allowing the rotation of the second base in the unlocked position.
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Description

Technical Field

[0001] The present invention relates to the technical field of baby products, and particularly to baby carriers.

Background Art

[0002] With the change of people's safety awareness, in order to protect the safety of babies when riding in a vehicle, the number of protectors choosing a car safety seat is increasing. When a baby rides in a car, a car safety seat is attached to the car seat to provide safety protection when the child rides. However, the existing safety seat cannot rotate after being fixed to the car seat, the vision in the baby safety seat is single, and the fact that the safety seat cannot rotate after being fixed to the car seat also brings certain inconvenience to the caregiver.

Summary of the Invention

Problems to be Solved by the Invention

[0003] The object of the present invention is to provide a baby carrier having a rotating structure, which can rotate the carrier body to different positions with respect to the seat of the vehicle by the rotating structure.

Means for Solving the Problems

[0004] To achieve the above object, the present invention provides a baby carrier, which comprises a rotating structure. The rotating structure comprises a first pedestal and a second pedestal rotatably provided on the first pedestal. At least two positioning holes are provided on the first pedestal, and a telescopic positioning member is provided on the second pedestal. The second pedestal rotates with respect to the first pedestal, and the positioning member cooperates with different positioning holes to lock the second pedestal at different positions of the first pedestal.

[0005] The baby carrier of the present invention has a rotating structure, the carrier body can be attached to the rotating structure, and the rotating structure can rotate the carrier body to adjust its position relative to the bottom surface, thereby providing the baby using the carrier with different visual experiences, and at the same time making it easier for the caregiver to attend to the child, as the caregiver can rotate the body to the appropriate position to attend to the child. Specifically, the rotating structure includes a first base and a second base rotatably connected to the first base. The second base is provided with a positioning member, and the first base is provided with a plurality of positioning holes, and when the positioning member retracts into the second base, the second base can rotate along the first base, and when the second base rotates to the desired position, the positioning member within the second base protrudes from the second base and, in cooperation with the positioning holes at the corresponding positions, fixes the second base to the first base. The positioning member works in cooperation with positioning holes at different positions so that the second base can be rotated and locked into different positions on the first base. The baby carrier of the present invention can be rotated to different positions by its rotating structure, making it more convenient to use and providing the baby with a variety of different visual experiences, while also facilitating caregiver attention to the baby, making it suitable for widespread use.

[0006] In one embodiment, the rotating structure further comprises a stand (frame) connected to the first base. The stand is provided, and the first base can be fixed by the stand.

[0007] In one embodiment, a first base is slidably mounted on a stand, and the first base engages with multiple segments of the stand. The first base can slide along the stand, its position between the first base and the stand can be adjusted, and after being adjusted to the appropriate position, it can be engaged and fixed in place, resulting in a simple structure and a rational design.

[0008] In one embodiment, multiple positioning holes are located on the same circumference. The second base rotates along the rotation center of the first base, and when it rotates to the appropriate position, the positioning member cooperates with the positioning holes at the corresponding positions, i.e., the multiple positioning holes are aligned with the rotation center as the center of the circle.

[0009] In one embodiment, the second base is further provided with a drive member for driving a positioning member. The positioning member is driven by the drive member and is extended and retractable on the second base.

[0010] In one embodiment, a drive unit that cooperates with a positioning member is provided at one end of the drive member, and the drive unit is located on the outer circumference of the positioning member. The drive unit of the drive member is provided on the outer circumference of the positioning member, causing the drive unit to cooperate with the positioning member.

[0011] In one embodiment, a positioning portion is provided on the positioning member, protruding in a first direction, and a drive chute is provided on the drive unit that cooperates with the positioning portion. The positioning portion is slidably mounted on the drive chute. The positioning portion of the positioning member enters the drive chute of the drive unit, and when the drive unit operates, the positioning portion slides along the drive chute.

[0012] In one embodiment, the drive chute is installed at a default angle inclined to the drive unit. The drive chute is installed at an angle so that when the positioning unit is slid along the drive chute, the horizontal movement can be converted into vertical movement.

[0013] In one embodiment, a lock release operating member is connected to one end of the drive member that is away from the drive unit. The end of the lock release operating member protrudes from a second base, and by operating the lock release operating member, the drive unit is slid together with the lock release operating member, the positioning unit is slid along the drive chute, and thereby the positioning unit is released from the positioning hole. The end of the drive member is a lock release operating member protruding from the second base, and by moving the lock release operating member, the drive unit is slid horizontally, and because the inclined drive chute cooperates with the positioning unit, when the drive chute slides along the positioning unit, the positioning unit is moved upward, thereby releasing the positioning unit from the positioning hole and unlocking it.

[0014] In one embodiment, the unlocking operation member is provided with a first reset member that tends to reset the unlocking operation member. By providing the first reset member, the unlocking operation member can be automatically reset after being driven.

[0015] In one embodiment, a positioning pin is provided on the positioning member, and a plurality of stand holes are provided on the stand. The positioning pin engages with the positioning holes as the positioning member moves, or engages with both the positioning holes and the stand holes, or disengages from the positioning holes as the positioning member moves. The positioning member works in cooperation with the positioning pin and positioning holes located inside the positioning member. The stand is provided with stand holes, and when the second base rotates to a position where the positioning holes and stand holes overlap, the positioning pin protrudes from the second base, engaging with both the positioning holes and the stand holes simultaneously, thereby strengthening the connection between the first base, the second base, and the stand. When the second base rotates to another position relative to the first base, the positioning pin engages only with the positioning holes, and when the drive member is driven, the positioning pin disengages from the positioning holes, i.e., the lock is released.

[0016] In one embodiment, the positioning pin is detachably provided on the positioning member. The positioning pin can be removed from within the positioning member, making it convenient for replacement after wear.

[0017] In one embodiment, the positioning pin and the positioning member are integrated into a single structure. The positioning pin and the positioning member are integrally constructed, resulting in a more stable structure.

[0018] In one embodiment, the first base is further provided with a locking member that locks to the second base or stand. By providing the locking member, the first base needs to slide to the default position of the stand in order to rotate between the first base and the second base.

[0019] In one embodiment, one end of the locking member is provided with a pressing portion that cooperates with a second base, and the other end of the locking member is provided with an engaging portion that cooperates with a stand. The locking member is located on a first base, with one end of the locking member cooperating with the second base and the other end of the locking member cooperating with the stand.

[0020] In one embodiment, the second base is provided with a rotating unlocking member. The unlocking member is rotatably mounted on the second base, and by rotating the unlocking member, the unlocking member is made to act on the locking member.

[0021] In one embodiment, the unlocking member is further provided with an unlocking part that cooperates with the pressing part. The unlocking part of the unlocking member works in cooperation with the pressing part of the locking member to unlock the lock.

[0022] In one embodiment, a pressing slope is provided in the pressing section, and a driving slope is provided in the unlocking section, with the pressing slope slidably in contact with the driving slope. The operation of the unlocking member causes the driving slope to press against the pressing slope, and the pressing slope slidably in contact with the driving slope.

[0023] In one embodiment, the stand has a locked position and a unlocked position that cooperate with a locking member. When the first base slides along the stand to the locked position, the pressing part engages with the unlocked part, preventing the second base from rotating relative to the first base. When the first base slides along the stand to the unlocked position, the unlocked member is driven to slide the pressing part in the unlocked part, thereby allowing the second base to rotate relative to the first base. One end of the locking member cooperates with the second base, and the other end of the locking member cooperates with the stand. When the first base slides to the locked position of the stand, the engaging part of the locking member separates from the engaging hole in the stand, preventing the drive part from pressing the pressing part, fixing the second base to the first base, and preventing the second base from rotating relative to the first base. When the first base slides to the unlocked position of the stand, the engaging portion of the locking member aligns with the engaging hole of the stand. When the drive unit presses the pressing portion, the locking member moves, engaging its engaging portion with the engaging hole of the stand, disengaging the locking member from the unlocking member, and unlocking the connection between the second base and the first base.

[0024] In one embodiment, the stand is provided with an engagement hole that cooperates with an engaging portion, and when the first base slides along the stand and the engaging portion engages with the engagement hole, the second base can rotate relative to the first base. When the engaging portion engages with the engagement hole of the stand, the locking member is released from the unlocking member, and furthermore, the second base and the first base can be unlocked and rotated.

[0025] In one embodiment, the locking member is provided with a second resetting member that brings the locking member into contact with the unlocking member. By providing the second resetting member, the locking member can be automatically reset when the second base rotates and the locking member aligns with the unlocking member.

[0026] In one embodiment, the unlocking member is provided with a third reset member that tends to reset the unlocking member. After rotating and pressing the locking member by the unlocking member, it can reset itself via the third reset member.

Brief Description of Drawings

[0027] [Figure 1] It is a schematic diagram of the structure of the baby carrier in an embodiment of the present invention. [Figure 2] It is a schematic diagram of the structure of another state of the baby carrier in FIG. 1. [Figure 3] It is a schematic diagram of the structure of the rotation structure in FIG. 1. [Figure 4] It is a schematic diagram of the structure of the rotation structure in FIG. 3 from another angle. [Figure 5] It is a schematic diagram of the structure of the rotation structure in FIG. 3 from another angle. [Figure 6] It is a schematic diagram of the structure of the rotation state of the rotation structure in FIG. 3. [Figure 7] It is a schematic diagram of the structure in which the first pedestal and the stand cooperate in FIG. 3. [Figure 8] It is a schematic diagram of the structure of the second pedestal in FIG. 3. [Figure 9] It is a schematic diagram of the internal structure of the second pedestal in FIG. 8. [Figure 10] It is a schematic diagram of the structure of the second pedestal in FIG. 8 from another angle. [Figure 11] It is a schematic diagram of the internal structure with the case removed in the rotation structure in FIG. 3. [Figure 12] It is a schematic diagram of the internal structure of a certain state of the rotation structure in FIG. 3. [Figure 13] It is a schematic diagram of the internal structure of another state of the rotation structure in FIG. 3. [Figure 14] It is a schematic diagram of the cross-sectional structure of the locked state of the rotation structure in FIG. 3. [Figure 15] It is a schematic diagram of the cross-sectional structure of the unlocked state of the rotation structure in FIG. 3. [Figure 16] This is a magnified view of area A in Figure 15. [Figure 17] Figure 3 is a schematic diagram of the structure of the drive member. [Figure 18] Figure 3 is a schematic diagram of the structure of the locking member. [Figure 19] Figure 3 is a schematic diagram of the structure of the lock release member. [Modes for carrying out the invention]

[0028] To further explain the technical content and structural features of the present invention, the following description will be provided with reference to the drawings and embodiments.

[0029] Referring to Figures 1 to 9, the present invention provides a baby carrier 1000 including a carrier body 200 and a rotating structure 100 for carrying a baby, the carrier body 200 being detachably mounted on the rotating structure 100. Specifically, the rotating structure 100 includes a first base 10 and a second base 20 rotatably mounted on the first base 10. Here, the first base 10 is provided with at least two positioning holes 11, and the second base 20 is provided with an expandable / contractable positioning member 22. When the positioning member 22 of the second base 20 contracts into the second base 20, the second base 20 can rotate relative to the first base 10, and when the second base 20 rotates to the appropriate position, it drives the positioning member 22, which protrudes from within the second base 20 and, in cooperation with the positioning holes 11 at the corresponding positions, fixes the second base 20 to the first base 10. The positioning member 22 can cooperate with positioning holes 11 at different positions to lock the second base 20 to different positions on the first base 10. In this embodiment, the baby carrier 1000 is a child seat, and the carrier body 200, i.e., the seat body, is detachably attached to the rotating structure 100.

[0030] The baby carrier 1000 of the present invention has a rotating structure 100, the carrier body 200 is attached to the rotating structure 100, and the rotating structure 100 can rotate the carrier body 200 to adjust its position relative to the bottom surface, which may be a car seat or a vehicle seat surface for attaching other safety seats. By rotating the rotating structure 100, different visual experiences can be provided to the baby using it, and at the same time, it becomes easier for the caregiver to attend to the child, as the caregiver can rotate the body to the appropriate position to easily attend to the child. The baby carrier 1000 of the present invention has strong practicality and is suitable for widespread use. The rotating structure 100 of the present invention includes a first base 10 and a second base 20 that is rotatably connected to the first base 10. The second base 20 is provided with a positioning member 22, and the first base 10 is provided with a plurality of positioning holes 11. When the positioning member 22 retracts into the second base 20, the second base 20 can rotate along the first base 10. When the second base 20 rotates to the desired position, the positioning member 22 inside the second base 20 protrudes from the second base 20 and cooperates with the positioning holes 11 at the corresponding positions, fixing the second base 20 to the first base 10. The positioning member 22 cooperates with positioning holes 11 at different positions so that the second base 20 can rotate and lock into different positions on the first base 10. The rotating structure 100 of the present invention has a simple structure, and the angle can be adjusted by rotating it between the first base 10 and the second base 20. The seat attached to the rotating structure 100 can be positioned in different locations on the car seat according to actual needs, and is not only safe and reliable but also facilitates caregivers' consideration for the baby.

[0031] Referring to Figures 3 to 7 and 11 to 15, in some selectable embodiments, the rotating structure 100 includes a stand 30 connected to a first base 10, the first base 10 being slidably mounted on the stand 30, and the first base 10 engaging with a plurality of segments of the stand 30. By providing the stand 30, the first base 10 can be fixed by the stand 30. The stand 30 is provided with a plurality of segment holes 31 that cooperate with the first base 10, the first base 10 slides along the stand 30, and the segment holes 31 engage and fix the first base 10 to the stand 30. The position between the first base 10 and the stand 30 is adjustable, and the first base 10 is engaged and fixed when it is adjusted to the appropriate position.

[0032] Referring to Figures 7 and 10, in some selectable embodiments, multiple positioning holes 11 are located on the same circumference. The second base 20 rotates around the center of rotation of the first base 10, the first base 10 is provided with a first rotational orbit 14, and the second base 20 is provided with a second rotational orbit 26, with the first rotational orbit 14 cooperating with the second rotational orbit 26. When the first base 10 is positioned at the very front of the stand 30, the second base 20 can rotate along the first base 10, and when rotated to the appropriate position, the positioning member 22 can be fixed in cooperation with the positioning holes 11 at the corresponding positions, that is, the multiple positioning holes 11 are arranged with the center of rotation as the center of the circle.

[0033] Referring to Figures 8-9 and 11-17, in some selectable embodiments, the second base 20 is also provided with a drive member 21 for driving the positioning member 22. Specifically, one end of the drive member 21 is provided with a drive unit 211 that is located on the outer circumference of the positioning member 22 and cooperates with the positioning member 22. The drive unit 211 has a hollow case structure, and the positioning member 22 is located inside the drive unit 211. The positioning member 22 is provided with a positioning portion 221 that protrudes in a first direction, and the drive unit 211 has a drive chute 2111 that cooperates with the positioning portion 221, and the positioning portion 221 is provided sliding inside the drive chute 2111. The first direction is the direction perpendicular to the positioning member 22, that is, the direction extending from the positioning member 22 toward the drive unit 211. The drive chute 2111 is mounted on the drive unit 211 at a default angle of inclination, and is positioned at the lower end of the drive chute 2111 so that the positioning part 221 is located inside the positioning hole 11 when locked. To unlock, the drive member 21 is operated to slide the drive chute 2111, causing the positioning part 221 to slide inside the drive chute 2111. As the drive chute 2111 slides, the positioning part 221 is gradually raised from the lower end of the drive chute 2111, raising the positioning member 22, and then the positioning member 22 is released from the positioning hole 11 to unlock. The default angle can be 30°, 40°, 45°, etc., as long as the drive chute 2111 is mounted at an inclination so that horizontal motion is converted into vertical motion, and the positioning member 22 can be released from the positioning hole 11 while the drive member 21 is sliding.

[0034] Referring to Figure 17, in some optional embodiments, a release operating member (e.g., a release lever 213 or other configuration) is provided at one end of the drive member 21 away from the drive unit 211, and the release lever 213 is connected to the drive unit 211 via a connector 212. The release lever 213, the connector 212, and the drive unit 211 may be integrally molded, or they may be molded individually and then connected. One end of the release lever 213 protrudes from the second base 20, and by operating the release lever 213 and acting on the drive unit 211 via the connector 212, the drive unit 211 slides the positioning member 221 along the drive chute 2111 as the release lever 213 slides, disengaging the positioning member 22 from the positioning hole 11 and releasing it. One end of the drive member 21 is a release lever 213 that protrudes from the second base 20. Moving the release lever 213 slides the drive unit 211 horizontally, and the inclined drive chute 2111 cooperates with the positioning unit 221. As the drive chute 2111 slides along the positioning unit 221, the drive chute 2111 moves upward together with the positioning member 22, disengaging the positioning member 22 from the positioning hole 11 and releasing the lock. Specifically, the release lever 213 is provided with a first reset member 24 that tends to reset the release lever 213, and the first reset member 24 can be provided with a spring structure. After the release lever 213 is driven by the first reset member 24 with the spring structure, the release lever 213 can be automatically reset.

[0035] Referring to Figures 10, 14-17, in some selectable embodiments, the positioning member 22 includes a positioning pin 222, the end of which is away from the positioning portion 221 protrudes outside the positioning member 22 and includes a positioning pin 222 for cooperating with the first base 10 and the stand 30. Specifically, the stand 30 is provided with a plurality of stand holes 32, and the operation of the positioning member 22 engages the positioning pin 222 with the positioning hole 11, engages the positioning pin 222 with the positioning hole 11 and the stand hole 32, disengages the positioning pin 222 from the positioning hole 11, and disengages the positioning pin 222 from the positioning hole 11 and the stand hole 32. The positioning member 22 cooperates with the positioning hole 11 via the positioning pin 222 located inside the positioning member 22, and the stand 30 is provided with stand holes 32. When the positioning hole 11 aligns with the stand hole 32, the positioning pin 222 protrudes outside the second base 20 when the second base 20 is not rotating, thereby engaging with both the positioning hole 11 and the stand hole 32 simultaneously, thereby strengthening the connection between the first base 10, the second base 20, and the stand 30. When the second base 20 rotates to another position on the first base 10, the positioning pin 222 is engaged only within the positioning hole 11. When the drive member 21 is driven, the positioning pin 222 is disengaged from the positioning hole 11 and unlocked, thereby allowing the second base 20 to rotate on the first base 10. Here, the positioning pin 222 is detachably provided within the positioning member 22. The positioning pin 222 can be removed from within the positioning member 22, which is convenient for replacement after wear. Of course, the positioning pin 222 and the positioning member 22 may be an integrated structure, and the positioning pin 222 may be provided integrally with the positioning member 22, resulting in a more robust structure.

[0036] Referring to Figures 7, 11-16, 18, and 19, in some selectable embodiments, the first base 10 is provided with a locking member 12 that can be locked to a second base 20 or stand 30, and the second base 20 is provided with a rotatable unlocking member 23. Specifically, one end of the locking member 12 is provided with a pressing portion 122 that cooperates with the second base 20, and the other end of the locking member 12 is provided with an engaging portion 121 that cooperates with the stand 30. When locked, the engaging portion 121 moves away from the engaging hole 33 of the stand 30, and when the unlocking member 23 pushes up the locking member 12, the locking member 12 becomes immobile. When unlocked, the engaging portion 121 is aligned with the engaging hole 33 on the stand 30, and when the unlocking member 23 presses the locking member 12, the locking member 12 moves away from the unlocking member 23, so that the engaging portion 121 is positioned inside the engaging hole 33. Here, the unlocking member 23 is provided with an unlocking part 232 that cooperates with the pressing part 122, the pressing part 122 is provided with a pressing slope 1221, and the unlocking part 232 is provided with a driving slope 2321, the pressing slope 1221 sliding and connecting to the driving slope 2321. The operating part 231 of the unlocking member 23 protrudes outside the second base 20, and by moving the operating part 231, the unlocking member 23 is rotated, and the driving slope 2321 presses against the pressing slope 1221. Since both the driving slope 2321 and the pressing slope 1221 are provided at an angle, when the operating part 231 is moved, the driving slope 2321 presses against the pressing slope 1221, converting the horizontal force into a vertical force, and further moving the locking member 12 downwards, engaging the engaging part 121 into the stand 30 and completing the unlocking.

[0037] Referring to Figures 7, 11-16, 18, and 19, in this embodiment, by providing the locking member 12, the first base 10 slides to a position corresponding to the engagement portion 121 and the engagement hole 33 of the stand 30 to release the lock, and furthermore, it is necessary to make it rotatable between the first base 10 and the second base 20. When the first base 10 is at the furthest end of the stand 30, that is, when the first base 10 is at one end away from the backrest of the car seat, the engagement hole 33 engages with the engagement portion 121, and at this time, the second base 20 can rotate relative to the first base 10. Furthermore, if the first base 10 is positioned in any other location on the stand 30, it rotates the second base 20, which in turn rotates the carrier body 200. At this time, because the positions of the first base 10 and the second base 20 are close to the backrest of the car seat, the carrier body 200 may collide with the backrest of the car seat during rotation, potentially damaging the seat body and posing a certain risk to the baby in the seat. Therefore, by providing the locking member 12, the second base 20 can rotate relative to the first base 10 when the first base 10 is in its furthest position from the seat back of the stand 30, that is, when the first base 10 has slid to the very front of the stand 30, making it safer to use.

[0038] Referring to Figures 14 to 16, in several selectable embodiments, the stand 30 has a locked position and an unlocked position in cooperation with the locking member 12. When the first base 10 slides along the stand 30 to the locked position, the pressing part 122 engages with the unlocking part 232, preventing the second base 20 from rotating relative to the first base 10. When the first base 10 slides along the stand 30 to the unlocked position, the second base 20 can be rotated relative to the first base 10 by driving the unlocking member 23 to slide the pressing part 122 into the unlocking part 232 and unlock it. The unlocked position is the position where the first base 10 is at the very front of the stand 30, i.e., the position where the stand 30 is furthest from the seat backrest when installed. The locked position is any position on the stand 30 away from the unlocked position. One end of the locking member 12 is the pressing part 122, which cooperates with the second base 20. The other end of the locking member 12 cooperates with the stand 30 as an engaging portion 121. When the first base 10 slides to the locked position of the stand 30, the engaging portion 121 of the locking member 12 separates from the engaging hole 33 of the stand 30, preventing the drive unit 211 from pressing the pressing portion 122, thereby fixing the second base 20 to the first base 10 and preventing the second base 20 from rotating relative to the first base 10. When the first base 10 slides to the unlocked position of the stand 30, the engaging portion 121 of the locking member 12 aligns with the engaging hole 33 of the stand 30. When the drive unit 211 presses the pressing portion 122, it operates the locking member 12, engaging the engaging portion 121 of the locking member 12 into the engaging hole 33 of the stand 30, disengaging the locking member 12 from the unlocking member 23, and further unlocking the connection between the second base 20 and the first base 10. The second base 20 is then rotatable relative to the first base 10.

[0039] Referring to Figures 14 to 16, in this embodiment, a first case 101 is provided on the first base 10, a second case 201 is provided on the second base 20, and a third case 301 is provided on the stand 30. The pressing portion 122 of the locking member 12 protrudes out of the first case 101, and the second case 201 is provided with a hole into which the pressing portion 122 enters and cooperates with the unlocking portion 232, so that the pressing portion 122 slides and contacts the unlocking portion 232. The third case 301 of the stand 30 is provided with an engagement hole 33 that cooperates with the engaging portion 121, and the unlocking portion 232 presses the pressing portion 122, causing the engaging portion 121 to protrude out of the second case 201 and cooperate with the engagement hole 33, thereby unlocking the space between the first base 10 and the second base 20. In other words, when the first base 10 slides along the stand 30 and the engaging portion 121 engages with the engaging hole 33, the locking member 12 disengages from the unlocking member 23, and further unlocks the connection between the second base 20 and the first base 10, allowing it to rotate.

[0040] Referring to Figures 11 to 17, in some selectable embodiments, the locking member 12 is provided with a second resetting member 13 that keeps the locking member 12 in constant contact with the unlocking member 23, and the second resetting member 13 is provided with a spring structure. The second resetting member 13 with a spring structure allows the locking member 12 to reset itself when the second base 20 rotates on the locking member 12 and aligns with the unlocking member 23. The unlocking member 23 is provided with a third resetting member 25 that tends to reset the unlocking member 23, and the third resetting member 25 is a tension spring. When the unlocking member 23 rotates and presses against the locking member 12, the third resetting member 25, which is a tension spring, can store energy, and when the locking member 12 detaches from the unlocking member 23, the energy stored in the tension spring can automatically activate and reset the unlocking member 23.

[0041] As shown in Figures 1 to 19, the baby carrier 1000 of the present invention is equipped with a rotating structure 100, which allows the carrier body 200 to be rotated, thereby providing the baby with different visual experiences and making it easier for the caregiver to attend to the child. The caregiver can rotate the body to an appropriate position to easily attend to the child. The rotating structure 100 comprises a stand 30, a first base 10 slidably mounted on the stand 30, and a second base 20 rotatably connected to the first base 10. When the first base 10 is at the furthest point on the stand 30, the second base 20 can rotate relative to the first base 10. When the first base 10 is at a non-furthest point on the stand 30, the second base 20 is locked to the first base 10 and cannot rotate in a way that would interfere with the car seat when the carrier body 200 is rotated by the second base 20, thus not affecting safety during use. A positioning member 22 is provided on the second base 20, and a plurality of positioning holes 11 are provided on the first base 10. In this embodiment, there are three positioning holes 11. The positioning holes 11 are located at positions away from the leading edge of the carrier 30 and on opposing left and right sides, so that the carrier body 200 can be fixed to the rear, to the left, and to the right. That is, by engaging the positioning member 22 with the positioning holes 11 in different directions, the carrier body 200 can be used in the rear or to the side. The rotating structure 100 of the present invention is simple in structure and convenient to operate. By operating the unlock lever 213 and the operating part 231, the angle can be adjusted by rotating between the first base 10 and the second base 20. The seat attached to the rotating structure 100 can be positioned in different positions on the car seat as needed. This is not only safe and reliable, but also facilitates caregivers' consideration for the baby and is suitable for widespread adoption.

[0042] The above disclosures are merely preferred examples of the present invention and do not limit the scope of the present invention; therefore, equivalent variations of the present invention described in the claims fall within the scope covered by the present invention. [Explanation of Symbols]

[0043] 10. First Pedestal 11 Positioning holes 12 Locking member 13. Second reset member 14. The first rotational orbit 20 Second Pedestal 21 Drive Member 22 Positioning member 23. Lock release member 24 First reset member 25 Third reset member 26. Second rotational orbit 30 stands 31 segment holes 32 stand holes 33 Engagement holes 100 rotation structure 101 Case 1 121 Engaging part 122 Pressing part 200 Carrier Unit 201 Case 2 211 Drive unit 212 Connection part 213. Lock release lever 221 Positioning section 222 Positioning pins 231 Operation section 232 Unlocking section 301 Third Case 1000 Baby Carrier 1221 Pressure slope 2111 Drive Chute 2321 Drive slope

Claims

1. A baby carrier equipped with a rotating structure, The rotating structure comprises a first base, a second base rotatably mounted on the first base, and a stand connected to the first base. The first base is provided with a locking member that locks into the second base or the stand. The stand has a locked position and an unlocked position that cooperate with the locking member, the locked position inhibits the rotation of the second base, and the unlocked position allows the rotation of the second base. A baby carrier characterized by the following features.

2. The baby carrier according to claim 1, wherein one end of the locking member is provided with a pressing portion that cooperates with the second base, and the other end of the locking member is provided with an engaging portion that cooperates with the stand.

3. The baby carrier according to claim 2, wherein the second base further comprises a rotatable unlocking member.

4. The baby carrier according to claim 3, wherein the unlocking member is further provided with an unlocking part that cooperates with the pressing part.

5. The baby carrier according to claim 4, wherein the pressing portion is provided with a pressing slope, the unlocking portion is provided with a driving slope, and the pressing slope is in slidable contact with the driving slope.

6. The unlocked position is the position in which the first base is located at the very front of the stand, according to claim 1.

7. The baby carrier according to claim 4, wherein when the first base slides along the stand to the locked position, the pressing portion engages with the unlocking portion to prevent the second base from rotating relative to the first base, and when the first base slides along the stand to the unlocked position, the unlocking member is driven to disengage the pressing portion from the unlocking portion and unlock the base, thereby allowing the second base to rotate relative to the first base.

8. The baby carrier according to claim 2, wherein the stand is provided with an engagement hole that cooperates with the engagement portion, and when the first base slides along the stand and the engagement portion engages with the engagement hole, the second base can rotate relative to the first base.

9. The baby carrier according to claim 3, wherein the locking member is provided with a second reset member that brings the locking member into contact with the unlocking member.

10. The unlocking member is provided with a third reset member that always tends to reset the unlocking member. The baby carrier according to any one of claims 3 to 5, 7, or 9.