Juicer with filter partition
By introducing a removable filter plate and modular design into the juicer, the problems of low blending efficiency and inconvenient cleaning of traditional juicers are solved. This achieves efficient separation of juice and pulp and flexible switching of functions, improving ease of use and cleaning.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- GUANGDONG ENAITER ELECTRICAL APPLIANCES CO LTD
- Filing Date
- 2025-06-28
- Publication Date
- 2026-07-07
AI Technical Summary
Traditional juicers have low blending efficiency, require additional filtration, making operation cumbersome and unable to flexibly switch between different blending modes. Furthermore, the fixed and non-removable filter structure makes cleaning inconvenient.
The juicer features a removable filter and a modular structure. The filter automatically separates juice from pulp, while the threaded structure and limiting edge design ensure a secure and airtight connection. The inclined blade design improves pulverization efficiency.
It improves the blending efficiency and taste of juice, simplifies the operation process, expands the application scenarios of the equipment, and reduces the difficulty of cleaning.
Smart Images

Figure CN224461465U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of kitchen appliance technology, and in particular relates to a juicer with a filter plate. Background Technology
[0002] Traditional juicers often require repeated blending due to insufficient particle breaking, resulting in low blending efficiency. Furthermore, users typically need to filter out residue, making the process cumbersome. While some juicers integrate filtration functions, the filter structure is usually fixed and non-removable, preventing flexible switching to normal blending mode and making cleaning after filtering inconvenient and incomplete. Utility Model Content
[0003] (I) Purpose of the utility model
[0004] In order to overcome the above shortcomings, the purpose of this utility model is to provide a juicer with a filter baffle to solve the technical problems of low blending efficiency, the need for additional filtration operation which leads to cumbersome operation and inability to flexibly switch between different blending modes in traditional juicers.
[0005] (II) Technical Solution
[0006] To achieve the above objectives, the technical solution provided in this application is as follows:
[0007] A juicer with a filter baffle includes: a main body base, a motor disposed within the main body base, a blade assembly located above the main body base and connected to the motor output shaft at its lower end, a lower cup body with openings at both ends disposed above the main body base, the lower end of the lower cup body being detachably connected to the main body base, a baffle disposed above the lower cup body and having multiple filter holes, and an upper cup body with an opening at its lower end disposed above the baffle, the upper cup body extending downward after its lower end presses against the baffle and being detachably connected to the upper end of the lower cup body.
[0008] By incorporating a baffle plate within the juicer, the filter automatically filters out pulp when the cup is inverted after blending. Unscrewing the lower cup reveals the filtered juice remaining in the upper cup, achieving efficient separation of juice and pulp. This design not only enhances the taste of the juice but also eliminates the cumbersome additional filtering required by traditional juicers. Furthermore, the detachable, modular structure (lower cup, baffle plate, and upper cup) allows users to flexibly assemble the juicer according to their needs: automatic filtering is performed when the baffle plate is installed, and regular blending (such as making smoothies) can be performed directly after removing the baffle plate, significantly expanding the equipment's application scenarios. During blending, ingredients rotate and rise under the action of the blades. Due to the limited size of the baffle plate's filter holes, particles that cannot pass through bounce off the baffle plate and return to the blade area for further pulverization. This cyclical mechanism shortens blending time, improves pulverization efficiency, and ensures that the ingredients are thoroughly broken down.
[0009] In some embodiments, the upper end face of the main unit extends upward to form a first fixed wall with a first threaded structure, and the lower cup body is provided with a second threaded structure that is threadedly engaged with the first threaded structure.
[0010] With the cooperation of the first fixed wall and the second threaded structure, the lower cup body and the main unit can be quickly tightened or disassembled, with high connection stability. The threaded structure design simplifies the user's operation steps and enhances the sealing performance to prevent liquid leakage.
[0011] In some embodiments, the upper end of the upper cup body is provided with a third threaded structure, and the lower end of the lower cup body is bent horizontally outward and then extends vertically downward to form a second fixed wall with a stepped structure, which can press the partition. The inner side of the second fixed wall is provided with a fourth threaded structure that is threadedly engaged with the third threaded structure.
[0012] The stepped structure's second fixed wall, in conjunction with the fourth threaded structure, ensures that the partition is firmly pressed when the upper and lower cups are screwed together, preventing displacement or tilting of the partition during agitation. This ensures high stability of the partition installation. Furthermore, the partition does not require additional fixing structures; simply connecting the upper and lower cups is sufficient to press the partition together. This simplifies the component structure, reduces mold costs, and avoids unsanitary corners, allowing users to quickly disassemble and thoroughly clean the parts.
[0013] In some embodiments, the blade assembly includes a blade shaft connected to the motor output shaft and a plurality of blades disposed on the blade shaft, the blades being bent upwards and inclined.
[0014] The upward-bending and tilted blade design creates a swirling channel, which guides the ingredients to move upward and hit the baffle during mixing. After rebounding, the ingredients are pulverized again by the blade, significantly shortening the mixing time and improving the uniformity of pulverization.
[0015] In some embodiments, the outer wall of the lower cup body extends outward in the direction below the third thread structure to form a limiting edge that abuts against the lower end of the lower cup body;
[0016] The limiting edge design ensures precise positioning when the upper and lower cups are screwed on, preventing leakage due to incomplete screwing. At the same time, the limiting edge abuts against the lower end of the upper cup to form a sealing surface, further enhancing the seal between the cups and preventing juice leakage. Attached Figure Description
[0017] Figure 1 This is a schematic diagram of the structure of the juicer with filter partition of this utility model;
[0018] Figure 2 This is a cross-sectional view of the juicer with filter baffle of this utility model;
[0019] Figure 3 This is an exploded view of the juicer with filter baffle of this utility model.
[0020] Figure label:
[0021] 1. Main unit base; 101. First fixed wall; 102. First threaded structure; 2. Motor; 3. Blade assembly; 4. Lower cup body; 401. Second threaded structure; 402. Third threaded structure; 403. Limiting edge; 5. Upper cup body; 501. Second fixed wall; 502. Fourth threaded structure; 6. Partition plate. Detailed Implementation
[0022] To make the objectives, technical solutions, and advantages of this utility model clearer, the present utility model will be further described in detail below with reference to specific embodiments and accompanying drawings. It should be understood that these descriptions are merely exemplary and not intended to limit the scope of this utility model. Furthermore, descriptions of well-known structures and technologies are omitted in the following description to avoid unnecessarily obscuring the concept of this utility model.
[0023] This utility model provides a juicer with a filter partition, comprising: a main body base 1, a motor 2 disposed within the main body base 1, a blade assembly 3 located above the main body base 1 and connected at its lower end to the output shaft of the motor 2, a lower cup body 4 with openings at both ends disposed above the main body base 1, the lower end of the lower cup body 4 being detachably connected to the main body base 1, a partition 6 disposed above the lower cup body 4 and having multiple filter holes, and an upper cup body 5 with its lower end opening above the partition 6, the lower end of which presses against the partition 6 and is detachably connected to the upper end of the lower cup body 4.
[0024] This application utilizes a detachable, modular structure to allow for flexible switching between juice filtration and regular blending modes. Specifically, users can choose whether to install the partition 6 based on their needs: when making pulp-free juice, the partition 6 is placed between the lower cup 4 and the upper cup 5, and the partition 6 is pressed and fixed when the upper cup 5 is installed onto the lower cup 4; when directly blending ingredients (such as making smoothies or creams), the partition 6 can be removed, allowing the upper and lower cups 4 to connect directly.
[0025] Specifically, the upper end of the main unit 1 extends upward to form a first fixed wall 101 with a first threaded structure 102. The bottom edge of the lower cup 4 is correspondingly provided with a second threaded structure 401. By rotating the lower cup 4, its second threaded structure 401 tightly engages with the threaded structure of the first fixed wall 101, thereby securely mounting the lower cup 4 onto the main unit 1. This threaded connection method is not only easy to operate, but also enhances connection stability through the interlocking force of the threads, preventing the cup from loosening due to vibration during blending. Furthermore, the tight fit of the threaded structure improves the sealing between the lower cup 4 and the main unit 1, preventing juice leakage from the connection point.
[0026] Specifically, the lower cup body 4 has a third threaded structure 402 at its upper end, and the lower end of the upper cup body 5 bends outward and extends downward to form a stepped second fixed wall 501. The inner side of this second fixed wall 501 has a fourth threaded structure 502. When the upper cup body 5 is connected to the lower cup body 4, the lower cup body 4 is tightened by engaging the third threaded structure 402 with the fourth threaded structure 502 of the upper cup body 5. At this time, the stepped portion of the second fixed wall 501 presses down on the edge of the partition 6, ensuring that the partition 6 will not shift or tilt due to the impact of the food during blending. Because the upper cup body 5 and lower cup body 4 simultaneously press the partition 6 together, this design eliminates the need for additional fasteners. The installation of the partition 6 can be completed simply by tightening the upper and lower cup bodies 4, simplifying the structure and reducing cleaning dead zones. Users can easily disassemble the cup body and remove the partition 6 for cleaning by simply rotating the upper cup body 5 in the opposite direction.
[0027] Specifically, the blade assembly 3 includes a blade shaft connected to the output shaft of the motor 2 and multiple upward-bent, tilted blades. When the motor 2 starts, the tilted blades push the food upward, creating a vortex. During its ascent, the food impacts the baffle 6 and bounces back to the blade area, where it is further pulverized. This cycle significantly shortens the pulverizing time and produces more uniform and finer food particles. Furthermore, the tilted blade design reduces resistance during blade rotation, decreasing the load on the motor 2 and thus extending the equipment's lifespan.
[0028] Specifically, the outer wall of the lower cup body 4 has an outwardly extending limiting edge 403 below the third threaded structure 402. When the upper cup body 5 and the lower cup body 4 are tightened, the limiting edge 403 abuts against the bottom edge of the upper cup body 5, serving a positioning function. This design prevents damage to the threaded structure due to excessive tightening by the user, while ensuring proper tightening and avoiding leakage problems caused by loose connection. The contact surface between the limiting edge 403 and the edge of the upper cup body 5 further forms a sealing barrier, enhancing the sealing performance between the upper and lower cup bodies 4.
[0029] Specifically, the partition 6 features multiple evenly distributed filter holes, with the hole size designed according to the dimensions of common food particles. During blending, any food particles that are not fully pulverized are blocked by the partition 6 and repeatedly fall back to the blade area for further pulverization. After blending is complete, simply invert the cup, and the partition 6 will automatically separate the juice from the residue. After removing the partition 6, the user can directly use the upper and lower cups 4 as ordinary blending cups, switching between functional modes without additional tools. This design not only meets diverse needs but also simplifies the operation process.
[0030] In summary, this utility model, through its modular structure and optimized design, solves the problems of cumbersome operation and limited functionality of traditional juicers, while also ensuring ease of use and cleaning. Those skilled in the art can adjust the specific structure according to actual needs, but all such adjustments should fall within the scope of protection of the claims of this utility model.
[0031] It should be understood that the specific embodiments described above are merely illustrative or explanatory of the principles of this utility model and do not constitute a limitation thereof. Therefore, any modifications, equivalent substitutions, improvements, etc., made without departing from the spirit and scope of this utility model should be included within its protection scope. Furthermore, the appended claims are intended to cover all variations and modifications falling within the scope and boundaries of the appended claims, or equivalent forms of such scope and boundaries.
Claims
1. A juicer with a filter baffle, characterized in that, include: The main body (1), the motor (2) is located inside the main body (1), the blade assembly (3) is located above the main body (1) and its lower end is connected to the output shaft of the motor (2), the lower cup body (4) with openings at both ends is located above the main body (1), the lower end of the lower cup body (4) is detachably connected to the main body (1), the partition (6) is located above the lower cup body (4) and has multiple filter holes, the upper cup body (5) with its lower end opening above the partition (6) extends downward and is detachably connected to the upper end of the lower cup body (4) after its lower end presses against the partition (6).
2. The juicer with filter baffle according to claim 1, characterized in that, The upper end of the main body (1) extends upward to form a first fixed wall (101) with a first threaded structure (102), and the lower cup body (4) is provided with a second threaded structure (401) that is threadedly engaged with the first threaded structure (102).
3. The juicer with filter baffle according to claim 1, characterized in that, The lower cup body (4) is provided with a third threaded structure (402) at its upper end. The lower end of the upper cup body (5) is bent outward horizontally and then extends downward vertically to form a second fixed wall (501) with a stepped structure, which can press the partition (6) tightly. The inner side of the second fixed wall (501) is provided with a fourth threaded structure (502) that is threadedly engaged with the third threaded structure (402).
4. The juicer with filter baffle according to claim 1, characterized in that, The blade assembly (3) includes a blade shaft connected to the output shaft of the motor (2) and a plurality of blades disposed on the blade shaft, the blades being bent upward to form an inclined structure.
5. The juicer with filter baffle according to claim 3, characterized in that, The outer wall of the lower cup body (4) extends outward from the position below the third threaded structure (402) to form a limiting edge (403) that abuts against the lower end of the lower cup body (4).