A baby bottle
By introducing a sieve and drive components into the baby bottle, the problems of bubbles and insufficient dissolution during milk powder preparation are solved, achieving high-quality and safe drinking milk, avoiding discomfort for infants and protecting electronic components.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- MI MIX (SHANGHAI) TECH CO LTD
- Filing Date
- 2025-04-08
- Publication Date
- 2026-06-09
AI Technical Summary
Existing baby bottles tend to produce air bubbles when mixing formula, which can cause bloating and hiccups in infants after drinking the formula. At the same time, insufficient dissolution of the formula increases the burden on the intestines.
A baby bottle with a nipple and a drive assembly with a screen is designed. The screen is used to separate air bubbles, and the drive assembly is used to stir the milk powder and water to make them fully mixed. Combined with a sealing structure, it prevents milk leakage and protects electronic components.
It effectively removes air bubbles from breast milk, ensuring milk quality, preventing bloating and hiccups, improving milk powder dissolving efficiency, and protecting internal electronic components.
Smart Images

Figure CN224331250U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the technical field of baby bottles, and specifically to a baby bottle. Background Technology
[0002] Baby bottles are widely used as containers for feeding infants and young children, and are also used for preparing formula.
[0003] Current baby bottles are typically only for preparing formula. To prepare formula, the powder needs to be fully dissolved in warm water, so shaking is used to stir it. However, during this stirring process, some air gets directly into the warm water, creating bubbles in the prepared formula. If infants drink formula containing these bubbles, it can cause hiccups and bloating, leading to discomfort.
[0004] Secondly, manually stirring the milk powder is insufficient to fully dissolve it in warm water. Since infants' intestines are more delicate, milk powder that is not fully dissolved in warm water will increase the digestive burden on their intestines and make it inconvenient for them to drink. Utility Model Content
[0005] This utility model provides a baby bottle to solve the above-mentioned technical problems.
[0006] To achieve the above objectives, this utility model provides a baby bottle, comprising:
[0007] The nipple has a liquid outlet cavity;
[0008] The bottle body has an internal cavity, the nipple is installed on the bottle body, and the liquid outlet cavity is connected to the cavity;
[0009] A sieve is inserted into the outlet cavity and partially blocks the outlet cavity to separate air bubbles in the milk flowing into the outlet cavity.
[0010] Preferably, the nipple is provided with a squeezing part, which is located inside the liquid outlet chamber, and the screen is interference-fitted with the squeezing part.
[0011] Preferably, the nipple has a first slot at one end near the bottle body, and a first locking block protrudes from the bottle body;
[0012] The baby bottle also includes:
[0013] The handle has a second slot and a second locking block. The first slot engages with the second locking block, and the first locking block engages with the second slot to fix the nipple to the bottle body and seal the connection between the nipple, the handle, and the bottle body.
[0014] Preferably, the baby bottle further includes:
[0015] A stir bar is disposed within the accommodating cavity;
[0016] A drive component, coupled to the stir bar, drives the stir bar to stir the material within the accommodating cavity.
[0017] Preferably, the baby bottle further includes:
[0018] The bottom shell is installed at the end of the bottle body away from the nipple and forms an installation groove with the bottle body, and the drive assembly is installed in the installation groove.
[0019] Preferably, the driving component includes:
[0020] A drive motor is disposed within the mounting slot;
[0021] A drive magnet is mounted on the output end of the drive motor, and the drive magnet is coupled to the stir bar.
[0022] Preferably, a switch slot is provided on the bottom shell;
[0023] The baby bottle also includes:
[0024] The surface mount switch has one end housed in the switch slot and the other end electrically connected to the drive assembly.
[0025] Preferably, a reserved groove is provided on the bottom shell;
[0026] The baby bottle also includes:
[0027] The connecting wire has one end connected to the surface mount switch and the other end extending through the switch slot into the reserved slot and electrically connected to the drive assembly.
[0028] Preferably, the baby bottle further includes:
[0029] A waterproof component is installed in the mounting groove and covers the reserved groove;
[0030] A sealing element abuts against the waterproof component on the side away from the patch switch;
[0031] A fastener is provided between the bottom shell and the bottle body.
[0032] Preferably, the bottle body engages with the bottom shell;
[0033] The baby bottle also includes:
[0034] A circuit board is disposed in the mounting slot and electrically connected to the drive assembly;
[0035] The battery is disposed in the mounting slot and electrically connected to the circuit board;
[0036] A charging interface is located on the bottom shell and is electrically connected to the circuit board.
[0037] The baby bottle proposed in this utility model has the following beneficial effects:
[0038] 1. The baby bottle proposed in this utility model has a screen installed in the liquid outlet chamber. When the milk in the container flows into the liquid outlet chamber, it needs to pass through the screen. The screen will separate the air bubbles in the milk flowing into the liquid outlet chamber, allowing the milk to enter the liquid outlet chamber and preventing air bubbles from entering the liquid outlet chamber. This ensures that the milk entering the liquid outlet chamber does not contain air bubbles, thereby preventing infants from drinking milk containing air bubbles and avoiding bloating, hiccups, and other problems.
[0039] 2. The baby bottle proposed in this utility model uses two handles to fix the nipple to the bottle body to achieve a squeeze seal, thereby sealing the connection between the nipple, handles, and bottle body to prevent milk leakage. Furthermore, the squeeze seal method secures the nipple to the bottle body, facilitating nipple removal and installation.
[0040] 3. The baby bottle proposed in this utility model uses a drive component to move, thereby driving the stirrer to stir the milk powder and water in the accommodating cavity, so that the milk powder and water are fully mixed to form milk, avoiding the irritation of the infant's intestines due to the presence of milk powder particles.
[0041] 4. The baby bottle proposed in this utility model covers the reserved groove with a waterproof component, thereby preventing external liquids from entering the installation groove through the reserved groove, thus protecting the internal electronic components.
[0042] The sealing element further abuts against the waterproof component, thereby further improving the waterproof performance.
[0043] Ultrasonic treatment of the fasteners enables them to form a sealed connection between the bottom shell and the bottle body, further improving the sealing performance. Ultrasonic treatment also allows the bottom shell and the bottle body to be bonded and fixed together, forming an integrated unit, thereby improving waterproof performance. Attached Figure Description
[0044] Figure 1 This is a schematic diagram of the structure of the baby bottle of this utility model;
[0045] Figure 2 This is an exploded view of the baby bottle of this utility model;
[0046] Figure 3 for Figure 2 A schematic diagram of the middle section structure;
[0047] Figure 4 for Figure 3 Another structural diagram of the middle section;
[0048] Figure 5 for Figure 2 A schematic diagram of the structure of a nipple;
[0049] Figure 6 for Figure 2 A schematic diagram of the center handle.
[0050] In the picture:
[0051] 100. Baby bottle;
[0052] 110. Nipple; 110a. Dispensing chamber; 111. Squeezing part; 110b. First slot;
[0053] 120. Bottle body; 120a. Receiving cavity; 121. First locking block;
[0054] 130. Screen;
[0055] 140. Handle; 140a. Second slot; 141. Second block;
[0056] 150. Stirring tool;
[0057] 160. Drive assembly; 161. Drive motor; 162. Drive magnet;
[0058] 170, bottom shell; 170a, mounting slot; 170b, switch slot;
[0059] 180. Surface mount switch;
[0060] 190. Waterproof components; 191. Sealing components; 192. Fastening components;
[0061] 200. Circuit board; 210. Battery; 220. Charging interface.
[0062] The realization of the purpose, functional features and advantages of this utility model will be further explained in conjunction with the embodiments and with reference to the accompanying drawings. Detailed Implementation
[0063] It should be understood that the specific embodiments described herein are merely illustrative of the present invention and are not intended to limit the present invention.
[0064] It should be noted that in the description of this utility model, the terms "lateral," "longitudinal," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," and "outer," etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are used solely for the convenience of describing this utility model and for simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this utility model. Furthermore, the terms "first," "second," etc., are used for descriptive purposes only and should not be construed as indicating or implying relative importance.
[0065] This utility model proposes a baby bottle 100, comprising:
[0066] The nipple 110 has a liquid outlet cavity 110a;
[0067] The bottle body 120 has an internal cavity 120a, the nipple 110 is installed on the bottle body 120, and the liquid outlet cavity 110a is connected to the cavity 120a.
[0068] A screen 130 is fitted inside the liquid outlet chamber 110a and partially blocks the liquid outlet chamber 110a to separate air bubbles in the milk flowing into the liquid outlet chamber 110a.
[0069] Please refer to Figures 1-6 In this embodiment, since the screen 130 is installed in the outlet cavity 110a, when the milk in the receiving cavity 120a flows into the outlet cavity 110a, it needs to pass through the screen 130. The screen 130 will separate the air bubbles in the milk flowing into the outlet cavity 110a, allowing the milk to enter the outlet cavity 110a and preventing air bubbles from entering the outlet cavity 110a. This ensures that the milk entering the outlet cavity 110a does not contain air bubbles, thereby preventing infants from drinking milk containing air bubbles and avoiding bloating, hiccups, and other problems.
[0070] It should be noted that the nipple 110 is roughly a curved convex shape on one side, and protrudes to one side to form a teardrop-shaped sucking part for infants to suck.
[0071] The bottle body 120 is roughly cylindrical, and the accommodating cavity 120a is a space formed by an inward indentation on one side of the bottle body 120.
[0072] The screen 130 is roughly disc-shaped and has sieve holes.
[0073] Preferably, the nipple 110 is provided with a squeezing part 111, the squeezing part 111 is located in the liquid outlet chamber 110a, and the screen 130 is interference-fitted with the squeezing part 111.
[0074] Please refer to Figures 1-6 In this embodiment, the screen 130 is pressed onto the pressing part 111 to achieve a firm engagement, thereby fixing the screen 130 onto the nipple 110 so that the milk in the lower bottle 120 can be filtered.
[0075] Because it is fixed by the extrusion part 111, the screen 130 can be more easily disassembled and cleaned.
[0076] It should be noted that the squeezing part 111 is roughly in the shape of a "U" shape formed by the inner wall of the liquid outlet cavity 110a protruding outward, and the nipple 110 is made of flexible material.
[0077] Preferably, the nipple 110 has a first slot 110b at one end near the bottle body 120, and a first locking block 121 protrudes from the bottle body 120;
[0078] The baby bottle 100 also includes:
[0079] The handle 140 has a second slot 140a and a second locking block 141. The first slot 110b engages with the second locking block 141, and the first locking block 121 engages with the second slot 140a to fix the nipple 110 onto the bottle body 120 and seal the connection between the nipple 110, the handle 140, and the bottle body 120.
[0080] Please refer to Figures 1-6 In this embodiment, the nipple 110 is fixed to the bottle body 120 by two handles 140 to achieve a squeeze seal, thereby sealing the connection between the nipple 110, the handles 140 and the bottle body 120 to prevent milk leakage. Secondly, the nipple 110 is snapped onto the bottle body 120 by the squeeze seal, which facilitates the disassembly and installation of the nipple 110.
[0081] The double-layer snap-fit method makes the installation between the nipple 110 and the bottle 120 more secure.
[0082] It should be noted that the first locking block 121 is roughly an annular protrusion, and the cross-section of the second locking block 141 is roughly an elliptical annular block. Furthermore, the locking directions of the first locking block 121 and the second locking block 141 are perpendicular, which makes the locking more secure.
[0083] Preferably, the baby bottle 100 further includes:
[0084] A stir bar 150 is disposed within the accommodating cavity 120a;
[0085] A drive assembly 160 is coupled to the stir bar to drive the stir bar 150 to stir the material in the accommodating cavity 120a.
[0086] Please refer to Figures 1-6 In this embodiment, the drive component 160 moves to drive the stirrer 150 to stir the milk powder and water in the accommodating cavity 120a, so that the milk powder and water are fully mixed to form milk, avoiding the irritation of the infant's intestines due to the presence of milk powder particles.
[0087] It should be noted that the stir bar 150 is roughly capsule-shaped.
[0088] Preferably, the baby bottle 100 further includes:
[0089] The bottom shell 170 is installed at the end of the bottle body 120 away from the nipple 110, and forms an installation groove 170a with the bottle body 120. The drive assembly 160 is installed in the installation groove 170a.
[0090] Please refer to Figures 1-6 In this embodiment, an installation groove 170a is formed between the bottom shell 170 and the bottle body 120, so that the drive component 160 can be fixed in the installation groove 170a, thereby protecting the drive component 160 from external impacts and damage.
[0091] Preferably, the drive component 160 includes:
[0092] A drive motor 161 is disposed within the mounting slot 170a;
[0093] A drive magnet 162 is installed on the output end of the drive motor 161, and the drive magnet 162 is coupled to the stir bar 150.
[0094] Please refer to Figures 1-6 In this embodiment, the drive motor 161 rotates to drive the drive magnet 162 to rotate. Since the drive magnet 162 is coupled with the stir bar 150, the stir bar 150 stirs the milk powder and water in the accommodating cavity 120a to improve the stirring effect.
[0095] It should be noted that the drive motor 161 is a motor, and the drive magnet 162 can be a rectangular, circular, or other shaped magnet, including but not limited to the magnets mentioned above.
[0096] A drive disk is provided between the drive motor 161 and the drive magnet 162. The drive disk can be made of the material of a magnetic yoke to increase the magnetism of the drive magnet 162 on the stir bar 150.
[0097] Preferably, the bottom shell 170 is provided with a switch slot 170b;
[0098] The baby bottle 100 also includes:
[0099] The surface mount switch 180 has one end housed in the switch slot 170b and the other end electrically connected to the drive assembly 160.
[0100] Please refer to Figures 1-6 In this embodiment, the drive assembly 160 is controlled by the patch switch 180. When stirring is required, the patch switch 180 is driven, and the patch switch 180 controls the drive motor 161 to rotate, thereby driving the drive magnet 162 to rotate, and then driving the stir bar 150 to stir in the accommodating cavity 120a.
[0101] Preferably, a reserved groove is provided on the bottom shell 170;
[0102] The baby bottle 100 also includes:
[0103] The connecting wire has one end connected to the surface mount switch 180, and the other end extends through the switch slot 170b into the reserved slot and is electrically connected to the drive assembly 160.
[0104] Please refer to Figures 1-6 In this embodiment, the pre-reserved slot is used to install the connecting wire, which facilitates the electrical connection between the surface mount switch 180 and the internal drive assembly 160. Since the pre-reserved slot is provided, the assembly can be completed more quickly during the installation process.
[0105] Preferably, the baby bottle 100 further includes:
[0106] Waterproof component 190 is disposed in the mounting groove 170a and covers the reserved groove;
[0107] The sealing element 191 abuts against the waterproof element 190 on the side away from the patch switch 180;
[0108] The fastener 192 is located between the bottom shell 170 and the bottle body 120.
[0109] Please refer to Figures 1-6 In this embodiment, the reserved groove is covered by the waterproof component 190, thereby preventing external liquids from entering the mounting groove 170a through the reserved groove, thus protecting the internal electronic components.
[0110] The sealing element 191 further abuts against the waterproof element 190, thereby further improving the waterproof performance.
[0111] Ultrasonic treatment of the fastener 192 enables it to form a sealed connection between the bottom shell 170 and the bottle body, further improving the sealing performance. Ultrasonic treatment also allows the bottom shell 170 and the bottle body to be bonded and fixed together, forming an integral unit to improve waterproof performance.
[0112] It should be noted that the waterproof component 190 is a waterproof sticker; in other embodiments, it can be a waterproof cloth, etc. The sealing component 191 is made of silicone or rubber. The fixing component 192 is a plastic component.
[0113] Preferably, the bottle body 120 engages with the bottom shell 170;
[0114] The baby bottle 100 also includes:
[0115] The circuit board 200 is disposed in the mounting slot 170a and is electrically connected to the drive assembly 160.
[0116] Battery 210 is disposed in the mounting slot 170a and electrically connected to the circuit board 200;
[0117] The charging interface 220 is located on the bottom shell 170 and is electrically connected to the circuit board 200.
[0118] Please refer to Figures 1-6 In this embodiment, the bottom shell 170 is fixed to the bottle body 120 by engaging with the bottom shell 170, thereby achieving rapid assembly.
[0119] The circuit board 200 controls the movement of the drive assembly 160 to agitate the milk in the liquid chamber, making it easier for infants to drink. The charging interface 220 charges the battery 210, providing stored electrical energy. The battery 210 then powers the drive assembly 160, enabling it to drive the stirrer 150 to rotate for efficient agitation. The charging interface 220 is a Type-C interface; other types of interfaces may be used in other embodiments.
[0120] The above are merely preferred embodiments of this utility model and do not limit the patent scope of this utility model. Any equivalent structural transformations made based on the description and drawings of this utility model, or direct or indirect applications in other related technical fields, are similarly included within the patent protection scope of this utility model.
Claims
1. A baby bottle, characterized in that, include: The nipple has a liquid outlet cavity; The bottle body has an internal cavity, the nipple is installed on the bottle body, and the liquid outlet cavity is connected to the cavity; A sieve is inserted into the outlet cavity and partially blocks the outlet cavity to separate air bubbles in the milk flowing into the outlet cavity.
2. The baby bottle as described in claim 1, characterized in that, The nipple is provided with a squeezing part, which is located in the liquid outlet chamber, and the screen is interference-fitted with the squeezing part.
3. The baby bottle as described in claim 1, characterized in that, The nipple has a first slot at one end near the bottle body, and a first locking block protrudes from the bottle body; The baby bottle also includes: The handle has a second slot and a second locking block. The first slot engages with the second locking block, and the first locking block engages with the second slot to fix the nipple to the bottle body and seal the connection between the nipple, the handle, and the bottle body.
4. The baby bottle as described in claim 1, characterized in that, The baby bottle also includes: A stir bar is disposed within the accommodating cavity; A drive component, coupled to the stir bar, drives the stir bar to stir the material within the accommodating cavity.
5. The baby bottle as described in claim 4, characterized in that, The baby bottle also includes: The bottom shell is installed at the end of the bottle body away from the nipple and forms an installation groove with the bottle body, and the drive assembly is installed in the installation groove.
6. The baby bottle as described in claim 5, characterized in that, The driving component includes: A drive motor is disposed within the mounting slot; A drive magnet is mounted on the output end of the drive motor, and the drive magnet is coupled to the stir bar.
7. The baby bottle as described in claim 5, characterized in that, A switch slot is provided on the bottom shell; The baby bottle also includes: The surface mount switch has one end housed in the switch slot and the other end electrically connected to the drive assembly.
8. The baby bottle as described in claim 7, characterized in that, The bottom shell is provided with a reserved groove; The baby bottle also includes: The connecting wire has one end connected to the surface mount switch and the other end extending through the switch slot into the reserved slot and electrically connected to the drive assembly.
9. The baby bottle as described in claim 8, characterized in that, The baby bottle also includes: A waterproof component is installed in the mounting groove and covers the reserved groove; A sealing element abuts against the waterproof component on the side away from the patch switch; A fastener is provided between the bottom shell and the bottle body.
10. The baby bottle as described in claim 7, characterized in that, The bottle body engages with the bottom shell; The baby bottle also includes: A circuit board is disposed in the mounting slot and electrically connected to the drive assembly; The battery is disposed in the mounting slot and electrically connected to the circuit board; A charging interface is located on the bottom shell and is electrically connected to the circuit board.