A baby care apparatus

By installing a rocking drive device and a rotating counterweight at the bottom of the bed body of the infant care equipment, the bed body is automatically driven to rock, solving the problem of traditional equipment requiring manual pushing, realizing automatic rocking function, and improving ease of use.

CN224440858UActive Publication Date: 2026-07-03ZHONGSHAN OUTONG BABY PROD TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ZHONGSHAN OUTONG BABY PROD TECH CO LTD
Filing Date
2025-06-25
Publication Date
2026-07-03

AI Technical Summary

Technical Problem

Traditional infant care equipment requires adults to continuously push the frame to rock, which is inconvenient to use.

Method used

An infant care device was designed, with a rocking drive device at the bottom of the bed body. Through the cooperation of the rotating part and the counterweight, the bed body is automatically rocked, freeing up the adult's hands.

Benefits of technology

It features an automatic rocking function, making it easier for infants and toddlers to fall asleep and reducing the hassle for adults. Its structure is simple and ingenious.

✦ Generated by Eureka AI based on patent content.

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  • Figure CN224440858U_ABST
    Figure CN224440858U_ABST
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Abstract

This utility model discloses an infant care device, including two support frames (1) spaced apart and capable of being supported on the ground, and a bed body (2) connected to the two support frames (1). The bed body (2) has a space (3) for placing an infant. The bed body (2) is connected to the corresponding support frame (1), and a rocking drive device (4) is provided at the lower part of the bed body (2) to drive the bed body (2) to rock when started. This utility model has a simple structure and is easy to use.
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Description

[Technical Field]

[0001] This utility model relates to an infant care device. [Background Technology]

[0002] Infant care equipment is a common product in infants' growth. It generally consists of a support frame and a frame mounted on the support frame. After connecting the frame to the partition panels, it creates a space where the infant can sleep. The frame is usually directly rotatably connected to the support frame via a pivot. To facilitate soothing the infant to sleep, the frame can swing relative to the support frame. However, the swinging motion of traditional infant care equipment usually requires an adult to push the frame. In this case, the adult must stay next to the frame and constantly push, which is inconvenient to use.

[0003] Therefore, this utility model was created based on the above-mentioned shortcomings. [Utility Model Content]

[0004] The purpose of this invention is to overcome the shortcomings of the existing technology and provide an infant care device that is simple in structure and easy to use.

[0005] This utility model is achieved through the following technical solution:

[0006] An infant care device includes two support frames 1 spaced apart from each other and capable of being supported on the ground. A bed body 2 connected to the two support frames 1 is provided between them. The bed body 2 has a space 3 for placing an infant. The bed body 2 is connected to the corresponding support frame 1. The lower part of the bed body 2 is provided with a rocking drive device 4 that can drive the bed body 2 to rock when started.

[0007] The bed body 2 includes a frame 21, on which a partition cloth 22 is connected. The partition cloth 22 encloses the space 3, and the rocking drive device 4 is connected to the lower part of the frame 21.

[0008] The rocking drive device 4 includes a connecting seat 41 connected to the lower part of the frame 21, a rotating component 42 that can rotate relative to the connecting seat 41, and a power device 43 that drives the rotating component 42 to rotate.

[0009] The rotating component 42 includes a disc-shaped rotating body 421, and a counterweight 422 is connected to the rotating body 421 at a local position off from its rotation center.

[0010] The rotating component 42 includes a disc-shaped rotating body 421. A connecting shell 423 is provided on the rotating body 421 at a local position off from its rotation center. The connecting shell 423 protrudes from the outer peripheral surface of the rotating body 421, and a counterweight 422 is provided on the connecting shell 423.

[0011] The connecting shell 423 is integrally injection molded with the rotating body 421, and the connecting shell 423 is arranged in a fan shape on the rotating body 421.

[0012] The rotating component 42 includes a disc-shaped rotating body 421, with a disc-shaped connecting body 424 on one side of the rotating body 421. A counterweight 422 is provided on the connecting body 424 at a local position off from the rotation center of the rotating body 421. Alternatively, the rotating component 42 includes a disc-shaped rotating body 421, with a connecting body 424 on one side of the rotating body 421 having a non-circular cross-section. A counterweight 422 is connected to the connecting body 424 at a local position off from its rotation center. The counterweight 422 is located inside the connecting body 424 or is integrally formed with the connecting body 424.

[0013] The rotating component 42 includes a rotating body 421 and a counterweight 422 connected to the rotating body 421. The rotating body 421 is a non-circular shell structure, and the counterweight is located inside the rotating body 421 and offset from the rotation center of the rotating component 42. Alternatively, the rotating component 42 includes a rotating body 421 and a counterweight 422 connected to the rotating body 421. The rotating body 421 and the counterweight 422 are integrally formed, and the cross-section of the rotating component 42 is non-circular.

[0014] The frame 21 includes an upper frame 211 and a lower frame 212. The upper frame 211 has downwardly extending extension rods 213 on both sides of the middle. The lower ends of the extension rods 213 are connected to the middle of both sides of the lower frame 212. The lower frame 212 includes a front rod 2121 and a rear rod 2122. The connecting seat 41 is connected between the front rod 2121 and the rear rod 2122. The upper end of the extension rod 213 is connected to the support frame 1.

[0015] The connecting seat 41 has a first slot 71 on one side that can hold the front arm 2121, and a slider 72 that can slide relative to it on the other side. The slider 72 has a second slot 73 that can hold the rear arm 2122 when it slides to a set position. An adjusting screw 74 is provided between the slider 72 and the connecting seat 41 to adjust the sliding position of the slider 72.

[0016] Compared with the prior art, the present invention has the following advantages:

[0017] 1. The bed body of this utility model is connected to a rocking drive device. When the rocking drive device is activated, the bed body will rock relative to the support frame, thereby facilitating the care of infants and toddlers, helping them fall asleep, and freeing up adults' hands. Moreover, the rocking drive device is located at the bottom of the bed body, making it easier to drive the bed body to rock.

[0018] 2. The rotating component of this utility model includes a rotating body and a counterweight. The counterweight is set on the rotating body and is offset from the rotation center of the rotating body, so that the entire rotating component is in an unbalanced state when rotating, thereby generating a certain external force on the frame, which causes the frame to sway relative to the support frame. The structure is very simple and ingenious. [Attached Image Description]

[0019] Figure 1 This is a three-dimensional view of the skeleton of the infant care equipment of this utility model;

[0020] Figure 2 This is an exploded view of the skeleton of the infant care equipment of this utility model;

[0021] Figure 3 This is one of the perspective views of the components of the infant care equipment of this utility model;

[0022] Figure 4 This is a side view of the shaking drive device of the infant care equipment of this utility model;

[0023] Figure 5 This is an exploded view of the shaking drive device of this utility model;

[0024] Figure 6 This is the second perspective view of the components of the infant care equipment of this utility model;

[0025] Figure 7 This is an exploded view of the rotating component of this utility model;

[0026] Figure 8 This is a three-dimensional view of the infant care equipment of this utility model;

[0027] Figure 9 This is a schematic diagram of another embodiment of the rotating component of this utility model;

[0028] Figure 10 This is a schematic diagram of another embodiment of the rotating component of this utility model;

[0029] Figure 11 This is a schematic diagram of another embodiment of the rotating component of this utility model;

[0030] Figure 12 This is a schematic diagram of another embodiment of the rotating component of this utility model;

[0031] Figure 13 This is a schematic diagram of another embodiment of the rotating component of this utility model;

[0032] Figure 14 This is a schematic diagram of another embodiment of the rotating component of this utility model.

Detailed Implementation Methods

[0033] The present invention will be further described below with reference to the accompanying drawings:

[0034] like Figures 1 to 8 As shown, an infant care device includes two spaced-apart support frames 1 that can be supported on the ground. A bed body 2 connected to the two support frames 1 is provided between them. Each bed body 2 has a space 3 for placing an infant. The bed body 2 is connected to the corresponding support frame 1. A rocking drive device 4 is provided at the lower part of each bed body 2. When activated, the rocking drive device 4 generates a certain external force on the bed body 2, causing it to rock relative to the support frame 1, thus soothing the infant sleeping or resting in the space 3. The bed body 2 includes a frame 21, with a surrounding fabric 22 connected to the frame 21, forming the space 3. The rocking drive device 4 includes a connecting seat 41 connected to the lower part of the frame 21, with a rotating component 42 connected to the connecting seat 41, and a power device 43 connected to the rotating component 42 to drive its rotation.

[0035] like Figure 1 and Figure 2 As shown, the frame 21 includes an upper frame 211 and a lower frame 212. After the upper frame 211 and the lower frame 212 are connected to form the cover of the enclosure fabric 22, the lower frame 212 supports the bottom of the infant care equipment. The upper frame 211 has downwardly extending extension rods 213 on both sides of its middle section. The lower ends of the extension rods 213 are connected to the middle sections of both sides of the lower frame 212. The lower frame 212 includes a front frame rod 2121 and a rear frame rod 2122. The connecting seat 41 is connected between the front frame rod 2121 and the rear frame rod 2122. The upper end of the extension rod 213 is connected to the support frame 1. The extension rod 213 can be directly hinged to the support frame 1 via a pivot, or it can be rotatably connected using the structure described in this embodiment. In this embodiment, each extension rod 213 has two spaced-apart Z-shaped swing rods 6 connected to its upper end. One end of each swing rod 6 is rotatably connected to the extension rod 213, and the other end is rotatably connected to the support frame 1. Therefore, the frame 21 in this embodiment is very stable when swaying relative to the support frame 1. Of course, the upper part of the frame 21 can also be fixed to the support frame 1. When the shaking drive device 4 is activated, the generated external force can cause the frame 21 and the support frame 1 to sway slightly together, thereby soothing the infant.

[0036] like Figures 2 to 4 As shown, the connecting seat 41 has a first slot 71 on one side to engage the front bulkhead 2121, and a slider 72 on the other side to slide relative to it. The slider 72 has a second slot 73 that engages the rear bulkhead 2122 when it slides to a set position. An adjusting screw 74 is provided between the slider 72 and the connecting seat 41 to adjust the sliding position of the slider 72. When the rocking drive device 4 is connected to the frame 21, the first slot 71 engages with the front bulkhead 2121, and the second slot 73 engages with the rear bulkhead 2122. When it is necessary to remove the rocking drive device 4, the adjusting screw 74 is loosened and the slider 72 is slid backward to disengage the second slot 73 from the rear bulkhead 2122, thereby removing the rocking drive device 4.

[0037] like Figures 5 to 7 As shown, in this embodiment, the rotating component 42 includes a disc-shaped rotating body 421. A connecting shell 423 is provided on the rotating body 421 at a local position offset from its rotation center. The connecting shell 423 protrudes from the outer circumferential surface of the rotating body 421. A counterweight 422 is provided on the connecting shell 423. The counterweight 422 can be an iron block installed inside the connecting shell 423 to change the overall center of gravity of the rotating component 42, causing the rotating component 42 to rotate unbalanced, thereby causing the frame 21 to sway relative to the support frame 1, in order to care for infants and young children. Figure 7 As shown, the connecting shell 423 and the rotating body 421 are integrally injection molded, and the connecting shell 423 is arranged in a fan shape on the rotating body 421.

[0038] like Figure 6 As shown, the rotating component 42 is rotatably connected to the connecting seat 41 via a connecting shaft 45. The power device 43 includes a drive motor 431 mounted on the connecting seat 41. A pulley 46 is provided on the output shaft of the drive motor 431. A belt 47, capable of driving the rotating component 421 to rotate, is fitted onto the rotating body 421 and the pulley 46. The drive motor 431 drives the rotating component 42 to rotate via the belt 47. Using a relatively low-power drive motor 431 allows for startup, achieving energy savings. Alternatively, the output shaft of the drive motor 431 and the connecting shaft 45 can also be connected via gear transmission.

[0039] like Figure 12 The structure of the rotating member 42 according to another embodiment is shown. The rotating member 42 includes a disk-shaped rotating body 421. A counterweight 422 is connected to the rotating body 421 at a local position off the center of rotation. The counterweight 422 is connected to the eccentric position of the rotating body 421. Therefore, when the rotating member 42 rotates, an unbalanced state will also occur, causing the frame 21 to sway.

[0040] Figure 13 The structure of the rotating member 52 according to another embodiment is shown. The rotating member 42 includes a disk-shaped rotating body 421, and a disk-shaped connecting body 424 is provided on one side of the rotating body 421. A counterweight 422 is provided on the connecting body 424 at a local position off the rotation center of the rotating body 421. In this embodiment, the connecting body 424 can be a hollow shell shape, with the counterweight 522 disposed inside the connecting body 424. Alternatively, the connecting body 424 can be a disk-shaped structure, with the counterweight 522 disposed on the outer surface of the connecting body 424. Of course, the cross-section of the connecting body 424 can also be non-circular, with the counterweight 422 disposed on the connecting body 424 at a local position off its rotation center. The counterweight 422 can be disposed inside the connecting body 424 or integrally formed with the connecting body 424.

[0041] The rotating member 42 structure with various embodiments has been described above. Other embodiments of the rotating member 42 structure are listed here: such as Figure 14 As shown, the rotating component 52 includes a rotating body 521 and a counterweight 522 connected to the rotating body 521. The rotating body 521 is a non-circular shell structure, and the counterweight 522... Figure 14 (Not shown in the image) is located within the rotating body 521 and offset from the rotation center of the rotating component 52. For example... Figures 9 to 11 As shown, the rotating component 52 includes a rotating body 521 and a counterweight 522 connected to the rotating body 521. The rotating body 521 and the counterweight 522 are integrally formed. The cross-section of the rotating component 52 is non-circular. In this embodiment, the boundary between the counterweight 522 and the rotating body 521 is not clear; they are integrated into one unit, thereby ensuring that the rotating component 52 can generate force to drive the frame 2 to sway when it rotates. In these embodiments, the output shaft of the power device 54 is directly connected to the rotation center of the rotating component 52 to drive the rotating component 52 to rotate.

[0042] The present invention has been described in detail above with reference to the accompanying drawings. However, the present invention is not limited to the above embodiments. Within the scope of knowledge possessed by those skilled in the art, various changes can be made without departing from the spirit of the invention.

Claims

1. An infant care apparatus, characterized in that: The bed includes two support frames (1) spaced apart from each other and capable of being supported on the ground. A bed body (2) is provided between the two support frames (1) and connected to them. The bed body (2) has a space (3) for placing infants and young children. The bed body (2) is connected to the corresponding support frame (1). The lower part of the bed body (2) is provided with a rocking drive device (4) that can drive the bed body (2) to rock when started. The bed body (2) includes a frame (21). A partition cloth (22) is connected to the frame (21). The partition cloth (22) encloses the space (3). The rocking drive device (4) is connected to the lower part of the frame (21).

2. The infant care apparatus of claim 1, wherein: The rocking drive device (4) includes a connecting seat (41) connected to the lower part of the frame (21), a rotating component (42) that can rotate relative to the connecting seat (41), and a power device (43) that drives the rotating component (42) to rotate.

3. The infant care apparatus of claim 2, wherein: The rotating component (42) includes a disc-shaped rotating body (421), and a counterweight (422) is connected to the rotating body (421) at a local position off from its rotation center.

4. The infant care apparatus of claim 2, wherein: The rotating component (42) includes a disc-shaped rotating body (421), and a connecting shell (423) is provided on the rotating body (421) at a local position off from its rotation center. The connecting shell (423) protrudes from the outer peripheral surface of the rotating body (421), and a counterweight (422) is provided on the connecting shell (423).

5. The infant care apparatus of claim 4, wherein: The connecting shell (423) and the rotating body (421) are integrally injection molded, and the connecting shell (423) is arranged in a fan shape on the rotating body (421).

6. The infant care apparatus of claim 2, wherein: The rotating component (42) includes a disc-shaped rotating body (421), a disc-shaped connecting body (424) is provided on one side of the rotating body (421), and a counterweight (422) is provided on the connecting body (424) at a local position away from the rotation center of the rotating body (421); or, the rotating component (42) includes a disc-shaped rotating body (421), a connecting body (424) with a non-circular cross-section is provided on one side of the rotating body (421), and a counterweight (422) is connected on the connecting body (424) at a local position away from its rotation center, and the counterweight (422) is provided inside the connecting body (424) or integrally formed with the connecting body (424).

7. The infant care apparatus of claim 2, wherein: The rotating component (42) includes a rotating body (421) and a counterweight (422) connected to the rotating body (421). The rotating body (421) is a non-circular shell structure, and the counterweight is located inside the rotating body (421) and offset from the rotation center of the rotating component (42). Alternatively, the rotating component (42) includes a rotating body (421) and a counterweight (422) connected to the rotating body (421). The rotating body (421) and the counterweight (422) are integrally formed, and the cross-section of the rotating component (42) is non-circular.

8. The infant care apparatus according to any one of claims 2 to 7, characterized in that: The frame (21) includes an upper frame (211) and a lower frame (212). The upper frame (211) has downwardly extending extension rods (213) at the middle of both sides. The lower ends of the extension rods (213) are connected to the middle of both sides of the lower frame (212). The lower frame (212) includes a front rod (2121) and a rear rod (2122). The connecting seat (41) is connected between the front rod (2121) and the rear rod (2122). The upper end of the extension rod (213) is connected to the support frame (1).

9. The infant care apparatus of claim 8, wherein: The connecting seat (41) has a first slot (71) on one side that can hold the front arm (2121), and a slider (72) that can slide relative to it on the other side. The slider (72) has a second slot (73) that can hold the rear arm (2122) when it slides to a set position. An adjusting screw (74) is provided between the slider (72) and the connecting seat (41) to adjust the sliding position of the slider (72).