Electric milk frother
By designing a detachable stirring component connection structure and a convenient storage system, the problems of unstable connection and inconvenient cleaning of electric milk frothers have been solved, improving the safety and hygiene of use.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- ZHONGSHAN HESHENG HOUSEHOLD PRODUCTS CO LTD
- Filing Date
- 2025-07-15
- Publication Date
- 2026-07-14
AI Technical Summary
The mixing components of existing electric milk frothers are not detachable or the connection is unstable, making cleaning and replacement inconvenient, and they lack convenient storage structures, which affects safety and hygiene.
A detachable mixing component connection structure was designed, which enables quick replacement by engaging the mixing plug with the mixing connector. It is also equipped with a base and a sealed cover for easy storage and cleaning.
It enables convenient replacement and stable connection of the mixing components, improves safety and durability, and maintains the hygiene and portability of the equipment.
Smart Images

Figure CN224483764U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of milk frother technology, specifically relating to an electric milk frother. Background Technology
[0002] Milk frothers are essential tools in the preparation of modern beverages such as coffee and milk tea, and are widely used in homes and commercial settings. Their main function is to create foam from milk or other liquids through rapid stirring, thereby improving the taste and appearance of the drink. Currently, most milk frothers on the market are manual or simply electric models, which still present several inconveniences in practical use.
[0003] For example, in some existing electric milk frothers, the stirring component is not detachably connected to the body, making it extremely inconvenient to clean or replace different stirring heads. In addition, some products with complex structures or unstable connection methods are prone to problems such as loosening, slipping or even falling off of the stirring component during high-speed motor operation, which seriously affects the safety and effectiveness of use.
[0004] In addition, some electric milk frothers lack convenient storage structures, and the stirring head has no dedicated place after use, making it easy to lose or get contaminated, which is not conducive to maintaining hygiene and is also inconvenient for users to manage and store.
[0005] Therefore, overcoming the shortcomings of the existing technology is an urgent problem to be solved in this technical field. Utility Model Content
[0006] In view of the technical problems mentioned in the background art, the purpose of this utility model is to provide an electric milk frother to solve the technical problems mentioned in the background art.
[0007] To achieve the above objectives, the present invention provides the following technical solution: an electric milk frother, comprising a body and a stirring component, the stirring component being replaceably connected to the upper end of the body. The body includes a mounting housing, inside which a drive motor is installed. The lower end of the stirring component is provided with a stirring plug, and the upper end of the drive motor is provided with a motor shaft. A stirring connector is connected to the outer side of the motor shaft. The upper end of the mounting housing is provided with a connector slot, the stirring connector being disposed in the connector slot, and the stirring plug being inserted into the connector slot and engaging with the stirring connector.
[0008] Furthermore, the outer two sides of the stirring connector are symmetrically provided with connecting clips, and the middle of each of the two connecting clips is provided with a limiting protrusion. The two sides of the stirring plug are recessed with connecting grooves, and the inner side of each of the two connecting grooves is recessed with a limiting recess. The two connecting clips are engaged in the two connecting grooves, and at the same time, the two limiting protrusions and the two limiting recesses are connected in a limiting manner.
[0009] Furthermore, the drive motor is installed in the upper inner part of the mounting housing, and a battery is installed in the lower inner part of the mounting housing. A control circuit board is installed on the front side of the battery, and the control circuit board is electrically connected to the drive motor and the battery respectively via power lines.
[0010] Furthermore, the mixing component also includes a mixing rod and a mixing head, the mixing head being disposed at the lower end of the mixing component, and the mixing rod being connected between the mixing head and the mixing plug.
[0011] Furthermore, the surface of the control circuit board is provided with a control switch, and the front side of the mounting housing is provided with a switch button, which is connected to the control switch.
[0012] Furthermore, a charging connector is located at the bottom of the control circuit board.
[0013] Furthermore, it also includes a placement base and a sealing cover. One side of the surface of the placement base is provided with a machine body placement position, and the bottom of the machine body is inserted into the machine body placement position. The other side of the surface of the placement base is recessed with a plurality of stirring component placement positions, and the stirring components are inserted into the stirring component placement positions. The sealing cover is placed over the placement base.
[0014] The present invention has the following advantages: The body includes a mounting housing, inside which a drive motor is installed. The lower end of the stirring component is provided with a stirring plug, and the upper end of the drive motor is provided with a motor shaft. A stirring connector is connected to the outer side of the motor shaft. A connector slot is opened at the upper end of the mounting housing, and the stirring connector is set in the connector slot. The stirring plug is inserted into the connector slot and engaged with the stirring connector, thereby allowing the stirring component to be replaced and connected to the upper end of the body. Users of the electric milk frother of the present invention can replace stirring components with different functions or structures as needed. The structure is simple, easy for users to replace and maintain, and easy to store neatly, avoiding the stirring head from getting contaminated with foreign objects or being lost, thus improving the durability of the product and the user experience. Attached Figure Description
[0015] Figure 1 This is a schematic diagram of the connection structure between the body and the stirring component of this utility model.
[0016] Figure 2 This is an exploded structural diagram of the body and stirring component of this utility model.
[0017] Figure 3 This is a schematic diagram of the placement base, sealing cover, and body structure of this utility model.
[0018] Reference numerals: Body 10; Stirring component 20; Mounting housing 11; Drive motor 12; Control circuit board 13; Battery 14; Stirring rod 21; Stirring head 22; Stirring plug 23; Motor shaft 121; Stirring connector 15; Connector slot 111; Connecting edge 151; Limiting protrusion 152; Connecting slot 231; Limiting recess 232; Control switch 131; Switch button 16; Charging connector 132; Placement base 30; Sealing cover 40; Body placement position 31; Stirring component placement position 32. Detailed Implementation
[0019] like Figures 1 to 3 As shown, an electric milk frother includes a body 10 and a stirring element 20, which is replaceably connected to the upper end of the body 10.
[0020] In practical implementation, the device 10 includes a mounting housing 11, inside which a drive motor 12, a control circuit board 13, and a battery 14 are respectively installed. The drive motor 12 is installed in the upper inner part of the mounting housing 11 and is used to output rotational power. The battery 14 is installed in the lower inner part of the mounting housing 11 and provides power to the whole device, facilitating wireless portable use. The control circuit board 13 is installed in front of the battery 14 and is used to implement the control logic of the whole device, such as start, stop, mode switching, and safety protection functions. The control circuit board 13 is electrically connected to the drive motor 12 and the battery 14 through power lines to form a complete drive and control circuit.
[0021] In a specific implementation, the stirring component 20 includes a stirring rod 21, a stirring head 22, and a stirring plug 23. The stirring plug 23 is located at the upper end of the stirring component 20 and is used to connect with the drive motor 12 to realize electric drive transmission. The stirring head 22 is located at the lower end of the stirring component 20 and is used to directly contact the liquid and perform stirring and foaming operations. The stirring rod 21 is connected between the stirring head 22 and the stirring plug 23 and is used to transmit the rotational force of the drive motor to make the stirring head 22 rotate at high speed.
[0022] In practical implementation, the upper end of the drive motor 12 is provided with a motor shaft 121, and a stirring connector 15 is connected to the outer side of the motor shaft 121. The upper end of the mounting housing 11 is provided with a connector slot 111, in which the stirring connector 15 is located. The stirring plug 23 is inserted into the connector slot 111 and engages with the stirring connector 15. Quick assembly and disassembly can be achieved through a plug-and-play method, allowing the stirring component 20 to be interchangeably connected to the upper end of the machine body 10. This enables rapid replacement and adaptation of different stirring components 20, improving the flexibility and convenience of the equipment. During use, the user inserts the stirring plug 23 into the connector slot 111 at the upper end of the mounting housing 11, ensuring accurate alignment and secure engagement with the stirring connector 15. After power-on, the drive motor 12 drives the stirring component 20 to rotate at high speed via the motor shaft 121 and the stirring connector 15. The stirring head 22 agitates liquids such as milk, producing fine foam.
[0023] In practical implementation, the stirring connector 15 has symmetrically protruding connecting edges 151 on both outer sides, and a limiting protrusion 152 protrudes from the middle of each of the two connecting edges 151. The stirring plug 23 has connecting grooves 231 on both sides that are adapted to the connecting edges 151, and a limiting recess 232 adapted to the limiting protrusion 152 is recessed on the inner side of each of the two connecting grooves 231. When the stirring plug 23 is connected to the stirring connector 15, the two connecting edges 151 are engaged in the two connecting grooves 231. At the same time, the two limiting protrusions 152 and the two limiting recesses 232 are connected in a limiting manner, thereby making the connection between the stirring plug 23 and the stirring connector 15 more stable and preventing loosening, slippage or falling off during high-speed rotation of the motor, thus improving the safety and durability of the whole machine.
[0024] In practical implementation, the surface of the control circuit board 13 is provided with a control switch 131, and the front side of the mounting housing 11 is provided with a switch button 16. The switch button 16 is connected to the control switch 131. In use, the user only needs to press the switch button 16 installed on the front side of the mounting housing 11 to trigger the control switch 131 on the control circuit board 13 and start the drive motor 12 to stir and foam; pressing it again will turn off the equipment.
[0025] In practical implementation, the bottom of the control circuit board 13 is provided with a charging connector 132. When in use, the charging connector 132 is used to realize the charging function of the battery 14. It can be connected to an external charger to supplement the electrical energy required by the device.
[0026] In practical implementation, this utility model also includes a placement base 30 and a sealing cover 40 to improve the storage convenience and hygiene of the electric milk frother. One side of the surface of the placement base 30 has a body placement position 31 for accommodating and fixing the milk frother body. The bottom of the body 10 is secured in the body placement position 31, ensuring it is firmly placed on the placement base 30 and preventing slippage or tipping. The other side of the surface of the placement base 30 has recessed placement positions 32 for stirring components. Each stirring component placement position 32 accommodates a spare stirring component, with the stirring plug 23 of the stirring component 20 inserted into the stirring component placement position 32. This insertion-type fixation allows for neat arrangement and categorized storage of the stirring components. The user can then place the sealing cover 40 over the placement base 30. The sealing cover 40 and the placement base 30 form a closed space, effectively preventing dust and moisture, maintaining the cleanliness and hygiene of the body and stirring components, while also improving overall aesthetics and portability. When in use, users only need to open the sealed outer cover to take out the main body and the required mixing parts, and then assemble them for milk frothing. After use, the main body and mixing parts are placed back into the base and the sealed outer cover is closed to achieve neat storage, prevent the mixing head from getting contaminated with foreign objects or being lost, and improve the product's durability and user experience.
[0027] In summary, the machine body 10 includes a mounting housing 11, inside which a drive motor 12 is installed. The lower end of the stirring component 20 is provided with a stirring plug 23, and the upper end of the drive motor 12 is provided with a motor shaft 121. A stirring connector 15 is connected to the outside of the motor shaft 121. The upper end of the mounting housing 11 has a connector slot 111, in which the stirring connector 15 is disposed. The stirring plug 23 is inserted into the connector slot 111 and engages with the stirring connector 15, thereby allowing the stirring component 20 to be replaced and connected to the upper end of the machine body 10. Users of this electric milk frother can replace stirring components with different functions or structures as needed. The structure is simple, easy for users to replace and maintain, and easy to store neatly, avoiding the stirring head from getting contaminated with foreign objects or being lost, thus improving the product's durability and user experience.
Claims
1. An electric milk frother, characterized in that, It includes a body (10) and a stirring component (20). The stirring component (20) is replaceably connected to the upper end of the body (10). The body (10) includes a mounting housing (11). A drive motor (12) is installed inside the mounting housing (11). A stirring plug (23) is provided at the lower end of the stirring component (20). A motor shaft (121) is provided at the upper end of the drive motor (12). A stirring connector (15) is connected to the outside of the motor shaft (121). A connector slot (111) is provided at the upper end of the mounting housing (11). The stirring connector (15) is located in the connector slot (111). The stirring plug (23) is inserted into the connector slot (111) and engaged with the stirring connector (15).
2. The electric milk frother according to claim 1, characterized in that, The stirring connector (15) has symmetrically protruding connecting edges (151) on both outer sides. Each of the two connecting edges (151) has a limiting protrusion (152) in the middle. The stirring plug (23) has recessed connecting grooves (231) on both sides. Each of the two connecting grooves (231) has a limiting recess (232) in the inner side. The two connecting edges (151) are engaged in the two connecting grooves (231). At the same time, the two limiting protrusions (152) and the two limiting recesses (232) are connected in a limiting manner.
3. The electric milk frother according to claim 1, characterized in that, The drive motor (12) is installed in the upper inner part of the mounting housing (11), and the battery (14) is installed in the lower inner part of the mounting housing (11). A control circuit board (13) is installed on the front side of the battery (14), and the control circuit board (13) is electrically connected to the drive motor (12) and the battery (14) respectively through a power line.
4. The electric milk frother according to claim 1, characterized in that, The stirring component (20) also includes a stirring rod (21) and a stirring head (22), the stirring head (22) being disposed at the lower end of the stirring component (20), and the stirring rod (21) being connected between the stirring head (22) and the stirring plug (23).
5. The electric milk frother according to claim 3, characterized in that, The control circuit board (13) has a control switch (131) on its surface, and a switch button (16) is installed on the front side of the mounting housing (11). The switch button (16) is connected to the control switch (131).
6. The electric milk frother according to claim 5, characterized in that, The bottom of the control circuit board (13) is provided with a charging connector (132).
7. The electric milk frother according to claim 1, characterized in that, It also includes a base (30) and a sealing cover (40). The base (30) has a body placement position (31) on one side of its surface. The bottom of the body (10) is inserted into the body placement position (31). The other side of the base (30) has a plurality of stirring component placement positions (32) recessed. The stirring component (20) is inserted into the stirring component placement position (32). The sealing cover (40) covers the top of the base (30).