A baby cradle convenient to store

By using gearbox drive and photoelectric sensing technology, combined with a folding design, the problems of unstable rocking and loose structure in baby rockers have been solved, achieving stable and precise rocking control and automatic soothing function, thus improving the safety and convenience of baby rockers.

CN224440857UActive Publication Date: 2026-07-03XINGTAI QIOU CHILDRENS PROD CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
XINGTAI QIOU CHILDRENS PROD CO LTD
Filing Date
2025-06-19
Publication Date
2026-07-03

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Abstract

This utility model discloses an easy-to-store baby rocker, belonging to the field of baby rocker technology, including a frame assembly, a left support drive assembly, a right support passive assembly, and a connecting pipe assembly. In this utility model, the right-side hanging rod body swings synchronously, ensuring balanced and coordinated rocking movements at both ends of the bed, avoiding tilting or swaying caused by structural asynchrony, thus achieving uniform and stable rocking movements. The rocking mechanism is driven by a gearbox, and the rocking angle is detected and fed back in real time by a photoelectric disk and grid installed on the rocker, in conjunction with a photoelectric sensing circuit board, achieving precise control of the rocking angle. The rocking angle can be switched in five levels, overcoming the shortcomings of inaccurate angle control in traditional rockers. Furthermore, this product has a built-in crying detection module; when a baby cries and a caregiver is not present, the baby rocker automatically starts the rocking function and plays soothing music, effectively calming the baby and improving the product's convenience and intelligence.
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Description

Technical Field

[0001] This utility model belongs to the field of baby rocker technology, and in particular relates to a baby rocker that is easy to store. Background Technology

[0002] A baby rocker is a comfortable sleep aid designed specifically for infants and toddlers. It typically features a lightweight frame structure paired with a soft, breathable mattress. Through gentle rocking or automatic electric swaying, it simulates the soothing feeling of being held by a mother, helping babies fall asleep quickly. Safety is paramount in its design, commonly featuring a non-slip base, safety belt, and breathable railings. Some high-end models also include music playback, white noise, or remote control functions. Rockers often have a foldable and portable design, suitable for various scenarios such as home and travel. However, it's important to pay attention to usage time and adhere to age-appropriate weight limits to avoid overuse that could negatively impact the baby's spinal development.

[0003] Current baby cribs generally have a simple structure, mainly used to provide a sleeping space for infants, and lack accompanying soothing or intelligent control functions. Traditional improved rockers are mostly manually operated, and their structure usually relies on a combination of fixed brackets and movable connecting parts. The user applies force to drive the rocker to swing laterally. This method is limited by the unevenness of the angle and frequency of the applied force, making it difficult to achieve continuous and stable rocking. It has the defects of poor structural stability, difficulty in controlling the swing amplitude, and dependence on human operation. Although some products have introduced motor drive mechanisms, they generally have problems such as complex transmission structure, easy wear of support components, and poor overall rigidity of the rocker. Moreover, in the process of achieving automatic rocking, there is a lack of effective angle limitation or position sensing feedback, resulting in inaccurate control of the swing angle. The bed structure is prone to displacement or loosening during long-term use, thus affecting the overall service life and safety performance of the rocker.

[0004] Based on this, the present invention designs an easy-to-store baby rocker to solve the above problems. Utility Model Content

[0005] The purpose of this invention is to address the common problems of simple structure and limited functionality in existing baby rockers. Traditional manual rocking relies on human force, resulting in unstable and uneven rocking. Meanwhile, some electric rockers suffer from insufficient rigidity due to complex transmission structures, easily worn support components, and a lack of precise angle control and feedback mechanisms, leading to potential shifting or loosening over time, thus affecting safety and durability. These problems limit the automation level and user experience of rockers, necessitating the optimization of mechanical structures and the introduction of intelligent control technology to improve stability and safety. Therefore, this invention proposes a baby rocker that is easy to store.

[0006] To achieve the above objectives, the present invention adopts the following technical solution:

[0007] A baby rocker that is easy to store includes a frame assembly, a left support drive assembly, a right support passive assembly, a connecting tube assembly, and left and right upper support assemblies.

[0008] The enclosure assembly includes: an upper enclosure tube (long), an upper enclosure tube (left / right), an upper enclosure tube (short), a lower enclosure tube, a lower enclosure connecting tube, a first enclosure bracket, an enclosure bracket, an enclosure unlock button, a quick-release clip, a limit clip, a compression spring, a side support inner cover, and a side support outer cover, wherein the side support outer cover is provided with a quick-release handle;

[0009] The left support drive assembly includes: gearbox assembly, gearbox mounting base, boom body, boom limiting pin, boom fixing liner, bearing one, compression spring two, anti-sway pin fixing base, touch screen panel, touch screen circuit board, photoelectric sensor circuit board, anti-sway pin body, bearing cover, boom inner plug, second frame bracket, folding button body, folding button cover, compression spring three, compression spring four, anti-sway button, anti-sway unlock button, anti-sway unlock block, upper left box inner cover, upper left box outer cover body, and upper left box outer cover decorative piece;

[0010] The right support passive component is symmetrical to the left support drive component in structure, and also includes a boom body, a boom limiting pin, a boom fixing liner, a bearing one, a compression spring two, an anti-sway pin fixing seat, an anti-sway pin body, a bearing cover and a boom inner plug, a folding button body, a folding button cover plate, a compression spring three, a compression spring four, an anti-sway button, an anti-sway unlocking button, an anti-sway unlocking block, a decorative piece for the upper left box cover, an inner cover for the upper right box and an outer cover for the upper right box, and a bearing one is sleeved on both sides of the boom limiting pin;

[0011] The connecting pipe assembly includes: a right support body, a left support leg, a first right support leg base, a second right support leg base, a support leg fixing liner, and a support leg end plug;

[0012] The left and right suspension rods are connected to the second frame bracket via bearing one, bearing two, and bearing limiting sleeve, and the second frame bracket and the frame assembly form a supporting relationship.

[0013] As a further description of the above technical solution:

[0014] The gearbox assembly is mounted on the gearbox mounting base. Its output shaft passes through the boom body and is connected to the boom limiting pin. Bearings are installed at both ends of the boom limiting pin. The bearings are located in the anti-sway pin mounting base. The anti-sway pin body passes through the anti-sway pin mounting base for limiting.

[0015] As a further description of the above technical solution:

[0016] One end of the boom body is provided with a boom inner plug, and the other end is connected to the left support drive assembly through a boom fixing liner. The boom fixing liner is installed in the gearbox fixing seat and cooperates with the boom limiting pin to form a hanging connection structure. A compression spring is provided on the outer side of the boom fixing liner.

[0017] As a further description of the above technical solution:

[0018] The first frame bracket is a quick-release bracket for the upper frame, the second frame bracket is a bracket for connecting the frame assembly and the left and right support rods, the frame block is set inside the frame bracket, the frame unlock button is installed on the frame block, and the quick-release clip and the limit key are installed on the frame assembly.

[0019] As a further description of the above technical solution:

[0020] The right support body and the left support leg are respectively hinged to the gearbox mounting base through rotation point A. Both the right support body and the left support leg are provided with locking holes B. The gearbox mounting base is provided with locking pin C, and the locking pin C can be inserted into the locking hole B to achieve locking.

[0021] As a further description of the above technical solution:

[0022] The folding button body is installed on the outside of the right support body and the left support leg, and the folding button cover is installed on its outside. The top of the right support body and the left support leg are both provided with support leg tube end plugs.

[0023] As a further description of the above technical solution:

[0024] The anti-shake button, the anti-shake unlock button, and the anti-shake unlock block are sequentially arranged on one side of the frame assembly, and the anti-shake unlock block is detachably connected to the anti-shake pin body.

[0025] As a further description of the above technical solution:

[0026] A light-shielding plate is provided on the left support drive assembly, and the light-shielding plate is installed on the upper surface of the upper left box cover body.

[0027] In summary, due to the adoption of the above technical solution, the beneficial effects of this utility model are:

[0028] 1. In this utility model, a drive mechanism consisting of a gearbox assembly and a gearbox mounting base is provided on the left side. The gearbox output shaft passes through and connects to the suspension rod limiting pin. Bearings are respectively mounted at both ends of the pin, cooperating with the suspension rod body and the anti-sway pin mounting base. The anti-sway pin body limits and positions the suspension rod body, allowing the suspension rod body to swing controllably under the drive of the gearbox. A symmetrical upper right box structure is provided on the right side to form a passive suspension rod assembly, which works in conjunction with the frame assembly (including the upper frame tube length 1, frame locking block, first frame locking base, etc.) to achieve synchronous swinging of the right suspension rod body when the left side drives the suspension rod body to swing, ensuring the bed... The rocking motion at both ends of the body is balanced and coordinated, avoiding tilting or swaying caused by asynchronous structure, thus achieving uniform and stable rocking motion. The rocking mechanism is driven by a gearbox, and the rocking angle is detected and fed back in real time by a photoelectric disk and grid installed on the rocker, together with a photoelectric sensing circuit board, to achieve precise control of the rocking angle. The rocking angle can be switched in five levels, overcoming the shortcomings of inaccurate angle control in traditional rockers. In addition, this product has a built-in crying detection module. When the baby cries and the caregiver is not present, the crib automatically starts the rocking function and plays soothing music to effectively calm the baby and improve the convenience and intelligence of the product.

[0029] 2. In this utility model, in the support structure, the left and right support legs are hinged to the gearbox fixing seat at the corresponding pivot point A. The support leg body is provided with a locking hole B, which can cooperate with the locking pin C on the main body to realize the folding locking function. When it is necessary to store or move the rocker, the user can control the anti-shake unlocking block through the anti-shake unlocking button to make the locking pin disengage from the locking hole, and the support leg can rotate inward around pivot point A to complete the folding. In the folded state, the support leg tube end plug, support leg fixing liner and other components are used for limiting, which improves the overall stability of the rocker structure and the convenience of transportation. This process realizes folding unlocking and fixed positioning through the cooperation between the structures, avoiding the complicated multi-component disassembly and assembly process, and improving the structural integrity and operation efficiency of the rocker. Attached Figure Description

[0030] Figure 1 This is a three-dimensional structural diagram of a baby rocker that is easy to store, as proposed in this utility model.

[0031] Figure 2 This is a three-dimensional structural diagram of a baby rocker with a long, easy-to-store frame tube, as proposed in this utility model.

[0032] Figure 3 An exploded view showing the left / right disassembly of the frame tube of a baby rocker that is easy to store, as proposed in this utility model.

[0033] Figure 4 This is a three-dimensional structural diagram of the right support body of a baby rocker that is easy to store, as proposed in this utility model.

[0034] Figure 5 This is a three-dimensional structural diagram of the outer cover of the upper right box of a baby rocker that is easy to store, as proposed in this utility model.

[0035] Figure 6 This is a three-dimensional structural diagram of the main body of a baby rocker hanging rod that is easy to store, as proposed in this utility model;

[0036] Figure 7 This is a three-dimensional structural diagram of the left support leg of a baby rocker that is easy to store, as proposed in this utility model.

[0037] Legend:

[0038] 1. Upper frame tube length; 2. Upper frame tube left / right; 3. Side support inner cover; 4. Quick-release handle; 5. Side support outer cover; 6. Lower frame connecting tube; 7. Limiting key; 8. Quick-release clip; 9. Compression spring one; 10. First frame holder; 11. Frame locking block; 12. Frame unlocking button; 13. Lower frame tube; 14. Upper frame tube short; 15. Upper left box inner cover; 16. Hanging rod fixing liner; 17. Bearing one; 18. Compression spring two; 19. Hanging rod limiting pin; 20. Anti-sway pin body; 21. Anti-sway pin fixing seat; 22. Hanging rod body; 23. Bearing cover; 24. Hanging rod inner plug; 25. Second frame holder; 26. Bearing two; 2 7. Bearing limiting sleeve; 28. First right support foot; 29. ​​Right support foot body; 30. Folding button cover; 31. Gearbox assembly; 32. Photoelectric sensor circuit board; 33. Second right support foot; 34. Left support foot; 35. Support tube end plug; 36. Upper left box outer cover body; 37. Upper left box outer cover decorative piece; 38. Touch screen circuit board; 39. Light shield; 40. Touch screen panel; 41. Compression spring three; 42. Folding button body; 43. Gearbox fixing seat; 44. Compression spring four; 45. Anti-shake button; 46. Anti-shake unlocking block; 47. Anti-shake unlocking button; 48. Upper right box inner cover; 49. Upper right box outer cover; 50. Support foot fixing liner. Detailed Implementation

[0039] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those skilled in the art without creative effort are within the protection scope of the present utility model.

[0040] Please see Figures 1-7 ,

[0041] First embodiment:

[0042] This utility model provides a technical solution: a baby rocker that is easy to store, including a frame assembly, a left support drive assembly, a right support passive assembly, a connecting tube assembly, and left and right upper support assemblies.

[0043] The enclosure assembly includes: upper enclosure tube length 1, upper enclosure tube left / right 2, upper enclosure tube short 14, lower enclosure tube 13, lower enclosure connecting tube 6, first enclosure bracket 10, enclosure bracket 11, enclosure unlocking button 12, quick release clip 8, limit clip 7, compression spring 9, side support inner cover 3, side support outer cover 5, and the side support outer cover 5 is equipped with a quick release handle 4;

[0044] The frame locking block 11 and the frame unlocking button 12 are installed on the frame assembly in conjunction. By pressing the unlocking button, the frame locking block 11 can be quickly released, realizing the quick disassembly or folding of the frame component. This structure simplifies the operation process, so that the baby rocker can be stored or adjusted without the use of tools, which significantly improves the convenience of the product and the user experience. The cooperation between the quick-release locking strip 8 and the limit locking key 7 is used to fix the position of the frame component during folding or unfolding. After the quick-release locking strip 8 slides into the limit locking key 7, it forms a stable connection to prevent the structure from accidentally disengaging during use, thereby improving the safety and structural stability during use.

[0045] The left support drive assembly includes: gearbox assembly 31, gearbox mounting base 43, boom body 22, boom limiting pin 19, boom fixing liner 16, bearing one 17, compression spring two 18, anti-sway pin fixing base 21, touch screen panel 40, touch screen circuit board 38, photoelectric sensor circuit board 32, anti-sway pin body 20, bearing cover 23, boom inner plug 24, second frame bracket 25, folding button body 42, folding button cover 30, compression spring three 41, compression spring four 44, anti-sway button 45, anti-sway unlocking button 47, anti-sway unlocking block 46, upper left box inner cover 15, upper left box outer cover body 36, and upper left box outer cover decorative piece 37.

[0046] The right support passive component and the left support drive component are structurally symmetrical, and also include a boom body 22, a boom limiting pin 19, a boom fixing liner 16, a bearing 17, a compression spring 18, an anti-sway pin fixing seat 21, an anti-sway pin body 20, a bearing cover 23 and a boom inner plug 24, a second frame card seat 25, a folding button body 42, a folding button cover 30, a compression spring 31, a compression spring 44, an anti-sway button 45, an anti-sway unlocking button 47, an anti-sway unlocking block 46, a left upper box outer cover decorative piece 37, a right upper box inner cover 48 and a right upper box outer cover 49, and bearings 17 are sleeved on both sides of the boom limiting pin 19;

[0047] The combination of spring 18, anti-shake button 45, anti-shake unlocking block 46, and anti-shake unlocking button 47 constitutes the anti-shake function of the frame.

[0048] The connecting pipe assembly includes: a right support body 29, a left support leg 34, a first right support leg base 28, a second right support leg base 33, a support leg fixing liner 50, and a support leg tube end plug 35;

[0049] The left and right suspension rods are connected to the second frame bracket 25 through bearing 17 and bearing limiting sleeve 27, and the second frame bracket 25 and the frame assembly form a support relationship.

[0050] Specifically, such as Figures 2-5 As shown, the gearbox assembly 31 is mounted on the gearbox mounting base 43, and its output shaft is used to drive the swing structure. The boom limiting pin 19 passes through the through hole in the middle of the boom body 22, which serves to suspend the boom body 22 on the gearbox mounting base 43. Bearings 17 are installed at both ends of the boom limiting pin 19. The bearings 17 are located on both sides of the boom limiting pin, which serves to limit and fix the boom and reduce the swing resistance. The anti-sway pin body 20 passes through the anti-sway pin mounting base 21 for limiting. The boom body 22 One end is provided with a rod inner plug 24, and the other end is connected to the left support drive assembly through a rod fixing liner 16, and cooperates with the rod limiting pin 19 to form a hanging connection structure. A compression spring 18 is provided on the outside of the rod fixing liner 16. The first frame card seat 10 is the upper frame quick release card seat, and the second frame card seat 25 is the frame assembly and the left and right support rod connecting card seat. The frame card block 11 is set in the frame card seat, and the frame unlock button 12 is installed on the frame card block 11. The quick release card strip 8 and the limiting card key 7 are installed on the frame assembly.

[0051] The photoelectric sensing circuit board 32 and the photoelectric disk grid work together to form an angle detection unit. When the shaker swings, the grid rotates to block or transmit through the photoelectric plate, realizing real-time detection and data feedback of the swing angle, thereby achieving precise angle control. This non-contact combination has the advantages of fast response and high durability.

[0052] During operation, a drive mechanism consisting of a gearbox assembly 31 and a gearbox mounting base 43 is installed on the left side. The gearbox output shaft passes through and connects to the boom limiting pin 19. Bearings 17 are mounted at both ends of the pin, which cooperate with the boom body 22 and the anti-sway pin mounting base 21. The anti-sway pin body 20 limits and positions the boom body 22, allowing the boom body 22 to swing controllably under the drive of the gearbox. On the right side, a symmetrical upper right box structure is arranged to form a passive boom assembly, which works in conjunction with the frame assembly (including the upper frame tube length 11, frame locking block 11, first frame locking base 10, etc.) to achieve the following: when the left-side drive boom body 22 swings, the right-side boom... Synchronized oscillation ensures balanced and coordinated rocking movements at both ends of the crib, preventing tilting or swaying caused by asynchronous structures, thus achieving uniform and stable rocking motion. The rocking mechanism is driven by a gearbox, and the rocking angle is detected and fed back in real time by a photoelectric disk and grid installed on the rocker, along with a photoelectric sensor circuit board 32, enabling precise control of the rocking angle. The rocking angle can be switched in five levels, overcoming the shortcomings of inaccurate angle control in traditional rockers. In addition, this product has a built-in crying detection module. When the product detects that the baby is crying and the caregiver is not present, the crib automatically starts the rocking function and plays soothing music, effectively calming the baby and improving the product's convenience and intelligence.

[0053] Second embodiment:

[0054] Specifically, such as Figures 5-7 As shown, the right support body 29 and the left support leg 34 are hinged to the gearbox mounting base 43 through the rotation point A. Both the right support body 29 and the left support leg 34 are provided with locking holes B. The gearbox mounting base 43 is provided with locking pin C, and the locking pin C can be inserted into the locking hole B to lock. The folding button body 42 is installed on the outside of the right support body 29 and the left support leg 34. The folding button cover plate 30 is installed on its outside. The top of the right support body 29 and the left support leg 34 are provided with support leg tube end plugs 35. The anti-shake button 45, the anti-shake unlocking button 47 and the anti-shake unlocking block 46 are arranged sequentially on one side of the frame assembly. The left support drive assembly is provided with a light shield 39, which is installed on the upper surface of the upper left box cover body 36.

[0055] After the locking pin C is inserted into the locking hole B on the support leg, the support leg can be locked at a specific angle to prevent it from shaking or accidentally folding during use. This mechanism is simple to operate, highly reliable, and effectively improves the overall stability and safety of the baby rocker. The folding button body 42 is used to control the folding action of the support leg. Its external folding button cover 30 not only provides protection and prevents accidental activation, but also creates a unified and aesthetically pleasing appearance. This mechanism enhances safety while improving the overall structural integrity of the product and the user experience. The anti-shake function is achieved by pressing the anti-shake button 45. The arc-shaped grooves on both sides of the anti-shake button 45 engage with the anti-shake pin 20 to achieve the anti-shake effect. When it is necessary to release the anti-shake state, slide the anti-shake unlocking button 47 down to unlock the function and allow the rocker to return to a free swinging state. This mechanism simplifies the operation process and improves the flexibility of use.

[0056] During operation, the left and right support legs are hinged to the gearbox mounting base 43 at pivot point A. The support legs have locking holes B, which can cooperate with locking pins C on the main body to achieve a folding and locking function. When the rocker needs to be stored or moved, the user can control the anti-shake unlocking block 46 through the anti-shake unlocking button 47 to disengage the locking pin from the locking hole, and the support legs can then rotate inward around pivot point A to complete the folding. In the folded state, the support leg tube end plugs 35, support leg fixing plates 50, and other components provide limiting, improving the overall stability and transportation convenience of the rocker structure. This process achieves folding unlocking and fixed positioning through the cooperation between the structures, avoiding the complex disassembly and assembly process of multiple components, and improving the structural integrity and operational efficiency of the rocker.

[0057] The above description is only a preferred embodiment of the present utility model, but the protection scope of the present utility model is not limited thereto. Any equivalent substitutions or changes made by those skilled in the art within the technical scope disclosed in the present utility model, based on the technical solution and the inventive concept of the present utility model, should be included within the protection scope of the present utility model.

Claims

1. A baby rocker that is easy to store, comprising a frame assembly, a left support drive assembly, a right support passive assembly, a connecting tube assembly, and left and right upper support assemblies, characterized in that, The enclosure assembly includes: upper enclosure tube length (1), upper enclosure tube left / right (2), upper enclosure tube short (14), lower enclosure tube (13), lower enclosure connecting tube (6), first enclosure bracket (10), enclosure bracket (11), enclosure unlock button (12), quick release clip (8), limit clip (7), compression spring (9), side support inner cover (3), side support outer cover (5), and the side support outer cover (5) is provided with a quick release handle (4); The left support drive assembly includes: a gearbox assembly (31), a gearbox mounting base (43), a boom body (22), a boom limiting pin (19), a boom fixing liner (16), a bearing one (17), a compression spring two (18), an anti-sway pin fixing base (21), a touch screen panel (40), a touch screen circuit board (38), a photoelectric sensing circuit board (32), an anti-sway pin body (20), a bearing cover (23), a boom inner plug (24), a second frame card seat (25), a folding button body (42), a folding button cover (30), a compression spring three (41), a compression spring four (44), an anti-sway button (45), an anti-sway unlocking button (47), an anti-sway unlocking block (46), an inner cover of the upper left box (15), an outer cover body of the upper left box (36), and an outer cover decoration of the upper left box (37). The right support passive component is symmetrical to the left support drive component and also includes a boom body (22), a boom limiting pin (19), a boom fixing liner (16), a second compression spring (18), an anti-sway pin fixing seat (21), an anti-sway pin body (20), a second bearing (26), a bearing limiting sleeve (27), a bearing cover (23), a boom inner plug (24), a second frame card seat (25), a folding button body (42), a folding button cover (30), a third compression spring (41), a fourth compression spring (44), an anti-sway button (45), an anti-sway unlocking button (47), an anti-sway unlocking block (46), a left upper box outer cover decoration (37), a right upper box inner cover (48), and a right upper box outer cover (49). The boom limiting pin (19) is fitted with a first bearing (17) on both sides. The connecting pipe assembly includes: a right support body (29), a left support leg (34), a first right support leg base (28), a second right support leg base (33), a support leg fixing liner (50), and a support leg tube end plug (35); The left and right suspension rods are connected to the second frame bracket (25) through bearing 1 (17) and bearing limiting sleeve (27), and the second frame bracket (25) and the frame assembly form a support relationship.

2. The foldable baby cradle of claim 1, wherein, The gearbox assembly (31) is mounted on the gearbox mounting base (43), and its output shaft is used to drive the swing structure. The rod limiting pin (19) passes through the through hole in the middle of the rod body (22) and serves to suspend the rod body (22) on the gearbox mounting base (43). Bearings (17) are installed at both ends of the rod limiting pin (19). The bearings (17) are set on both sides of the rod limiting pin and serve to limit and fix the rod. The anti-sway pin body (20) passes through the anti-sway pin mounting base (21) for limiting.

3. The foldable baby cradle of claim 1, wherein, The main body (22) of the boom is provided with a boom inner plug (24) at one end and the other end is connected to the left support drive assembly through the boom fixing liner (16) and cooperates with the boom limiting pin (19) to form a hanging connection structure. The boom fixing liner (16) is provided with a compression spring (18) on the outside.

4. The foldable baby cradle of claim 1, wherein, The first frame bracket (10) is a quick-release bracket for the upper frame, the second frame bracket (25) is a bracket for connecting the frame assembly and the left and right support rods, the frame bracket (11) is set inside the frame bracket, the frame unlock button (12) is installed on the frame bracket (11), and the quick-release clip (8) and the limit key (7) are installed on the frame assembly.

5. The foldable baby cradle of claim 1, wherein, The right support body (29) and the left support leg (34) are respectively hinged to the gearbox mounting base (43) through the rotation point A. The right support body (29) and the left support leg (34) are both provided with locking holes B. The gearbox mounting base (43) is provided with locking pin C, and the locking pin C can be inserted into the locking hole B to achieve locking.

6. The foldable baby crib of claim 1, wherein, The folding button body (42) is installed on the outside of the right support body (29) and the left support leg (34), and the folding button cover plate (30) is installed on its outside. The top of the right support body (29) and the left support leg (34) are both provided with support leg tube end plugs (35).

7. The foldable baby cradle of claim 1, wherein, The anti-shake button (45), the anti-shake unlock button (47), and the anti-shake unlock block (46) are sequentially arranged on one side of the frame assembly.

8. The foldable baby crib of claim 1, wherein, A light shield (39) is provided on the left support drive assembly, and the light shield (39) is installed on the upper surface of the upper left box cover body (36).