A turbulence block and milk froth whipping container
By designing the concave arc-shaped turbulence surface of the turbulence block and magnetic drive, the problems of low milk foam generation efficiency and uneven thickness caused by the small rotating diameter of the stirring component in the existing milk frother are solved, achieving better liquid mixing effect and reducing the driving force requirements.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHENZHEN STARESSO CULTURE CO LTD
- Filing Date
- 2025-07-24
- Publication Date
- 2026-06-26
AI Technical Summary
In existing milk frothers, the small diameter of the stirring component results in low milk foam generation efficiency and uneven foam thickness, while requiring high driving force.
Design a flow-dispersing block, including a flow-dispersing part and a connecting part. The flow-dispersing part is provided with a concave arc-shaped flow-dispersing surface and a flow-diverting end face. It is connected to the inner side wall of the container by a magnetic suction component. The flow-dispersing block is moved by a magnetic suction drive component to form a vortex and perform lateral flow diversion.
It improves the mixing effect of milk foam generation, avoids overly stable vortices, achieves better liquid mixing, and reduces the driving force requirement.
Smart Images

Figure CN224403414U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of beverage preparation equipment technology, and in particular to a turbulence block and a milk foaming container. Background Technology
[0002] Most existing milk frothers use a rotating agitator inside a container to froth the milk, thus creating milk foam. To achieve this, the agitator typically rotates at a high speed, with a relatively small diameter compared to the container. This is because an excessively large diameter agitator can cause liquid to splash out of the container, and it also requires a high driving force. Conversely, a smaller diameter agitator agitates the liquid both inside and outside the container, affecting the efficiency and uniformity of milk foam formation. Utility Model Content
[0003] The technical problem to be solved by this utility model is to provide a turbulence block with a simple structure and good mixing effect.
[0004] The technical problem to be solved by this utility model is to provide a milk foaming container that can produce a good mixing effect on the liquid that forms a vortex inside the container.
[0005] To solve the above-mentioned technical problems, this utility model provides a flow-dispersing block, including a flow-dispersing part and a connecting part, wherein one side of the flow-dispersing part is connected to the connecting part, and the other side is provided with a flow-dividing end face;
[0006] The turbulence section is provided with a turbulence surface for receiving the impact of water flow. The turbulence surface has an inwardly concave arc-shaped surface, which is located between the connecting part and the diversion end face.
[0007] As an improvement to the above solution, the connecting part is provided with a magnetic attracting element for magnetic attraction with an external magnetic attracting component.
[0008] As an improvement to the above scheme, one side of the turbulence surface extends to the side of the diversion end face.
[0009] As an improvement to the above solution, a flow diversion transition surface is provided between one side of the concave arc-shaped surface and the side of the flow diversion end face on the side of the turbulence part, and the flow diversion transition surface is an outwardly convex arc-shaped surface.
[0010] As an improvement to the above solution, the left and right sides of the turbulence section are respectively the connection surface connected to the connection section and the diversion end surface;
[0011] The front and rear sides of the turbulence-disrupting part are provided with the turbulence-disrupting surfaces.
[0012] As an improvement to the above solution, the bottom of the turbulence section or connecting section is provided with a spacer of a preset thickness.
[0013] As an improvement to the above solution, the turbulence section and the connecting section are integrated into a single structure.
[0014] As an improvement to the above solution, the connecting part is provided with a mounting groove for fixing the magnetic component.
[0015] A milk frothing container includes a container and a baffle block, wherein the baffle block is disposed inside the container;
[0016] The connecting part is connected to the inner wall of the container, and the diversion end face faces the center of the container.
[0017] As an improvement to the above solution, the connecting part is provided with a magnetic attracting member for magnetic attraction with the external magnetic attracting member, and the outer side wall of the container is provided with a magnetic attracting drive member for magnetic attraction with the magnetic attracting member, so as to drive the turbulence block to move through the magnetic attracting drive member.
[0018] Implementing this utility model has the following beneficial effects:
[0019] This utility model discloses a flow-disrupting block, including a flow-disrupting part and a connecting part. One side of the flow-disrupting part is connected to the connecting part, and the other side is provided with a flow-dividing end face. The flow-disrupting part is provided with a flow-disrupting surface for receiving the impact of water flow. The flow-disrupting surface is provided with a concave arc-shaped surface. The concave arc-shaped surface is located between the connecting part and the flow-dividing end face. Therefore, when the flow-disrupting block is set under the inner wall of the container, after the liquid in the container forms a vortex, the water flow will impact the flow-disrupting surface. The setting of the concave arc-shaped surface can make the water flow form a local vortex, so as to avoid the flow state of the vortex being too stable and can better mix the liquid.
[0020] Accordingly, this utility model also discloses a milk frothing container using the above-mentioned turbulence block, which can help the liquid in the container to achieve a better mixing effect during the rotation process. Attached Figure Description
[0021] Figure 1 This is a three-dimensional structural diagram of the turbulence block of this utility model;
[0022] Figure 2 This is a cross-sectional structural schematic diagram of the turbulence block of this utility model;
[0023] Figure 3 This is a schematic diagram of the structure of the turbulence block with a spacer section of this utility model;
[0024] Figure 4 This is a schematic diagram of the structure of the milk foaming container of this utility model. Detailed Implementation
[0025] To make the objectives, technical solutions and advantages of this utility model clearer, the utility model will be described in further detail below with reference to the accompanying drawings.
[0026] See Figure 1 , 2 The present invention provides a flow-dispersing block, including a flow-dispersing part 1 and a connecting part 2. One side of the flow-dispersing part 1 is connected to the connecting part 2, and the other side is provided with a flow-dividing end face 11.
[0027] The turbulence section 1 is provided with a turbulence surface 12 for receiving the impact of water flow. The turbulence surface 12 is provided with a concave arc surface 121, which is located between the connecting section 2 and the diversion end face 11.
[0028] Preferably, the turbulence-disrupting part 1 and the connecting part 2 are an integrated structure to improve the overall structural stability of the turbulence-disrupting block. It should be noted that when the concave arc-shaped surface accounts for 100% of the turbulence-disrupting surface, the turbulence-disrupting surface is the concave arc-shaped surface.
[0029] Specifically, to facilitate the use of the turbulence block and allow the external magnetic components to easily change the position of the turbulence block 3 inside the container, the connecting part 2 is provided with a magnetic attracting element 4 for magnetic attraction with the external magnetic components. Preferably, the connecting part 2 is provided with a mounting groove 21 for fixing the magnetic attracting element 4.
[0030] To better guide some of the fluid to laterally bypass the turbulence section 1 towards the diversion end face 11 after being impacted by the fluid, one side of the turbulence surface 12 extends to the side of the diversion end face 11, thus effectively diverting the fluid laterally. Furthermore, to minimize the formation of turbulence that affects the lateral diversion during the process, a diversion transition surface 13 is provided between one side of the concave arc-shaped surface 121 and the side of the diversion end face 11 on the side of the turbulence section 1. This diversion transition surface 13 is convex arc-shaped. The turbulence surface 12, the diversion transition surface 13, and the diversion end face 11 are connected sequentially to form a continuous side surface.
[0031] In order to accommodate vortices with different rotation directions, the left and right sides of the turbulence part 1 are respectively the connection surface 14 connected to the connection part 2 and the diversion end surface 11; the front and rear sides of the turbulence part 1 are provided with the turbulence surface 12. Therefore, when the turbulence block 3 is in use, the forward and reverse rotation of the vortex will impact the turbulence surface 12 on one side.
[0032] On the other hand, to ensure that the bottom of the turbulence block remains in a flow-through state during use, the bottom of the turbulence section 1 or the connecting section 2 is provided with a spacer 5 of a preset thickness, see [reference]. Figure 3This prevents the bottom surface of the turbulence block from completely adhering to the bottom surface of the container during use.
[0033] See Figure 4 This utility model also provides a milk frothing container, including a container 6 and the baffle block 3, wherein the baffle block 3 is disposed inside the container; the connecting part 2 is connected to the inner side wall of the container 6, and the diverting end face 11 faces the center of the container 6. Therefore, when the liquid in the container 6 forms a vortex, the baffle block 3 can perform lateral diversion and mixing of the fluid around the vortex.
[0034] Meanwhile, in order to conveniently and hygienically adjust the position of the turbulence block 3 in the container 6, the connecting part 2 is provided with a magnetic suction member 4 for magnetic attraction with the external magnetic suction member, and the outer side wall of the container is provided with a magnetic suction drive member 7 for magnetic attraction with the magnetic suction member 4, so as to drive the turbulence block 3 to move through the magnetic suction drive member 7.
[0035] Preferably, both the magnetic drive component 7 and the magnetic suction component 4 are magnets, or the magnetic drive component 7 and the magnetic suction component 4 are a magnet and an iron, respectively.
[0036] The above description is the preferred embodiment of this utility model. It should be noted that for those skilled in the art, several improvements and modifications can be made without departing from the principle of this utility model, and these improvements and modifications are also considered to be within the protection scope of this utility model.
Claims
1. A turbulence block, characterized in that, It includes a flow-dispersing part and a connecting part, wherein one side of the flow-dispersing part is connected to the connecting part, and the other side is provided with a flow-diverting end face; The turbulence section is provided with a turbulence surface for receiving the impact of water flow. The turbulence surface has an inwardly concave arc-shaped surface, which is located between the connecting part and the diversion end face.
2. The turbulence block as described in claim 1, characterized in that, The connecting part is provided with a magnetic attractor for magnetic attraction with an external magnetic attractor.
3. The turbulence block as described in claim 2, characterized in that, One side of the turbulence surface extends to the side of the diversion end face.
4. The turbulence block as described in claim 1 or 3, characterized in that, On the side of the turbulence section, a flow-dividing transition surface is provided between one side of the concave arc-shaped surface and the side of the flow-dividing end face, and the flow-dividing transition surface is an outwardly convex arc-shaped surface.
5. The turbulence block as described in claim 1, characterized in that, The left and right sides of the turbulence-disrupting part are respectively the connection surface and the diversion end surface connected to the connection part; The front and rear sides of the turbulence-disrupting part are provided with the turbulence-disrupting surfaces.
6. The turbulence block as described in claim 1 or 5, characterized in that, The bottom of the turbulence section or connecting section is provided with a spacer of a preset thickness.
7. The turbulence block as described in any one of claims 1, 2, 3, or 5, characterized in that, The turbulence-disrupting part and the connecting part are an integrated structure.
8. The turbulence block as described in claim 2, characterized in that, The connecting part is provided with a mounting groove for fixing the magnetic component.
9. A milk frothing container, characterized in that, Includes a container and a baffle block as described in any one of claims 1-8, wherein the baffle block is disposed within the container; The connecting part is connected to the inner wall of the container, and the diversion end face faces the center of the container.
10. The milk frothing container as described in claim 9, characterized in that, The connecting part is provided with a magnetic attracting member for magnetic attraction with an external magnetic attracting member, and the outer side wall of the container is provided with a magnetic attracting driving member for magnetic attraction with the magnetic attracting member, so as to drive the turbulence block to move through the magnetic attracting driving member.