A juicing device and its filtration assembly

By designing a detachable outer and inner cylinder structure, the problem of inconvenient disassembly of the filter components in traditional juicing equipment is solved, enabling convenient disassembly and cleaning, and improving the fineness of the juice and the juice yield.

CN224440958UActive Publication Date: 2026-07-03NINGBO PLANETARY ELECTRICAL APPLIANCES CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
NINGBO PLANETARY ELECTRICAL APPLIANCES CO LTD
Filing Date
2025-07-16
Publication Date
2026-07-03

AI Technical Summary

Technical Problem

The filter components of traditional juicing equipment are inconvenient to disassemble and clean, especially because the gap between the filter components and the juicing cylinder and screw is small, making disassembly difficult and posing a risk of cuts.

Method used

Design a filter assembly comprising a cylindrical outer cylinder and an inner cylinder. The outer cylinder is integrally formed at the lower part of the feed cylinder. The outer cylinder and the inner cylinder cooperate with each other through slots and rib structures to form filter holes. The filter assembly can be disassembled together with the feed cylinder, avoiding the need to directly disassemble the juicing cylinder.

Benefits of technology

It enables easy disassembly and cleaning of the filter components, improves cleaning efficiency, reduces the risk of cuts, and improves juice fineness and juice yield through structural optimization.

✦ Generated by Eureka AI based on patent content.

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Abstract

This application discloses a juicing device and its filtering assembly. The filtering assembly includes an outer cylinder and an inner cylinder coupled within the outer cylinder. The outer cylinder is integrally formed in the lower part of the feeding cylinder and includes multiple outer cylinder slots evenly distributed along the circumference. Adjacent outer cylinder slots form outer cylinder ribs, and their lower outer surfaces are connected by a retaining ring. The inner cylinder includes multiple inner cylinder ribs evenly distributed along the circumference. The inner cylinder ribs are adapted to the outer cylinder slots and are inserted into the outer cylinder slots, thus coupling the inner cylinder within the outer cylinder. The gap between the inner cylinder ribs and the sidewalls of the outer cylinder slots forms a filtering hole for juice to pass through. Therefore, the filtering assembly can be disassembled along with the feeding cylinder without needing to insert into the juicing cylinder to disassemble the filtering assembly, making disassembly and cleaning convenient and quick.
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Description

Technical Field

[0001] This application relates to the field of juicing equipment technology, specifically to a juicing device and its filtration component. Background Technology

[0002] Juicing equipment separates juice from pulp using a filter assembly. Traditional juicing equipment uses a cylindrical filter assembly with the filter screen mounted on the side wall, making cleaning inconvenient.

[0003] To this end, Chinese invention patent CN 108670006 B discloses a filter assembly for a juicing device and a juicing device. The filter assembly includes a cylindrical first component and a cylindrical second component. The first component is coupled into the filter assembly by slidingly entering the interior of the second component in the longitudinal direction. The circumferential sidewall of the first component is provided with a plurality of first grooves along the longitudinal direction or at an angle to the longitudinal direction. The circumferential sidewall of the second component is provided with a plurality of first protrusions that protrude from the inner surface of the circumferential sidewall of the second component in the radial direction or at an angle to the longitudinal direction. The first protrusions have a shape complementary to the first grooves, so that the shapes of the first protrusions fit together and are accommodated in the first grooves. Juice is obtained by juicing through the gap between the interface between the first protrusions and the first grooves.

[0004] However, in this design, the filter assembly is arranged around the screw inside the juicing cylinder, and the gap between the filter assembly and the cylinder wall and screw is small, making disassembly and cleaning inconvenient. Utility Model Content

[0005] In view of this, the present invention provides a juicing device and its filter assembly to solve the problem of inconvenient disassembly and cleaning of the filter assembly in the prior art.

[0006] The filtration assembly of the juicing device provided by this utility model includes a cylindrical outer cylinder and an inner cylinder detachably coupled inside the outer cylinder. The outer cylinder is integrally formed in the lower part of the feed cylinder of the juicing device.

[0007] The outer cylinder includes a plurality of outer cylinder slots evenly distributed along the circumference. The outer cylinder slots extend along the axial direction of the outer cylinder. An outer cylinder rib is formed between adjacent outer cylinder slots. The lower outer surface of the outer cylinder rib is connected by a fixing ring.

[0008] The inner cylinder includes a plurality of inner cylinder ribs evenly distributed along the circumference. The inner cylinder ribs are adapted to the outer cylinder slot. The upper end of the inner cylinder ribs is connected and fixed by an upper connecting ring, and the lower end is connected and fixed by a lower connecting ring.

[0009] The inner cylinder ribs are inserted into the outer cylinder slot, so that the inner cylinder is coupled inside the outer cylinder. The gap between the inner cylinder ribs and the side wall of the outer cylinder slot forms a filter hole through which the juice passes.

[0010] Based on the above technical solution, the filter assembly can be disassembled together with the feed cylinder, without needing to insert into the juicing cylinder to disassemble the filter assembly, making disassembly and cleaning convenient and quick.

[0011] In the above technical solution, preferably, the diameter of the outer cylinder is smaller than the diameter of the feed cylinder, and the upper end of the outer cylinder is connected to the lower end of the outer cylinder through a frustum-shaped connecting part.

[0012] In the above technical solution, preferably, the upper outer surface of the cone-shaped connecting part is provided with multiple buckles for rotating and engaging with the grooves on the inner wall of the juicing cylinder.

[0013] In the above technical solution, preferably, at least two limiting grooves are provided on the bottom surface of the fixing ring along the circumferential direction, and a limiting lug adapted to the limiting groove is provided on the outer side surface of the lower connecting ring. The limiting lug is embedded in the limiting groove and connected by interference compression between the side walls.

[0014] In the above technical solution, the outer wall of the fixing ring corresponding to the limiting groove protrudes outward to form a boss, and the outer side of the boss has a concave arc-shaped part.

[0015] In the above technical solution, preferably, the inner wall of the outer cylinder is a frustum-shaped cone with a smaller upper part and a larger lower part, and the outer wall surface of the inner cylinder is adapted to the inner wall surface of the outer cylinder.

[0016] In the above technical solution, preferably, the upper width of the outer cylinder slot is smaller than the lower width, and the projected surface forms an isosceles trapezoid.

[0017] In the above technical solution, preferably, the upper end of the inner cylinder rib is provided with a first slope, and the outer sides of the inner cylinder rib are respectively provided with second slopes.

[0018] In the above technical solution, preferably, reinforcing ribs are provided on the inner side of the inner cylinder ribs.

[0019] This utility model also provides a juicing device, including a juicing cylinder and a feed cylinder detachably disposed at the upper end of the juicing cylinder, a juicing screw disposed inside the juicing cylinder, and a filter assembly disposed around the juicing screw inside the juicing cylinder, characterized in that the filter assembly is the aforementioned filter assembly.

[0020] As can be seen from the above technical solution, the juicing equipment and its filter assembly provided by this utility model solve the problem of inconvenient disassembly and cleaning of the filter assembly in the prior art. Compared with the prior art, this utility model has the following beneficial effects:

[0021] The filter assembly includes a cylindrical outer cylinder and an inner cylinder. The outer cylinder is integrally formed into the lower part of the feed cylinder and includes multiple outer cylinder slots evenly distributed along its circumference. The inner cylinder includes multiple inner cylinder ribs evenly distributed along its circumference. The inner cylinder ribs are adapted to the outer cylinder slots on the outer cylinder. The gap between the inner cylinder ribs and the side walls of the outer cylinder slots forms filter holes through which the juice passes. The filter assembly can be disassembled along with the feed cylinder without needing to reach into the juicing cylinder to disassemble the filter assembly, making disassembly and cleaning convenient and quick. Attached Figure Description

[0022] To more clearly illustrate the embodiments of this utility model or the technical solutions in the prior art, the drawings used in the description of the embodiments of this utility model or the prior art will be briefly introduced and explained below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0023] Figure 1 A schematic diagram of the juicing device provided by this utility model;

[0024] Figure 2 for Figure 1 Cross-sectional view of the juicer with its base concealed.

[0025] Figure 3 This is an exploded structural diagram of the filter component in this utility model;

[0026] Figure 4 This is a schematic diagram of the feed cylinder in this utility model from a bottom view.

[0027] Figure 5 This is a schematic diagram of the inner cylinder in this utility model;

[0028] Figure 6 This is a schematic diagram of the juicing screw in this utility model;

[0029] Figure 7 for Figure 5 The side view of the juicing screw shown;

[0030] Figure 8 A schematic diagram showing a partial cross-section of the juicing device provided by this utility model;

[0031] Figure 9 This is a partial cross-sectional view of the inner cylinder in this utility model;

[0032] Figure 10 for Figure 8 Enlarged part A in the image;

[0033] Figure 11 This is a schematic diagram of the base in this utility model;

[0034] Figure 12 for Figure 11 The diagram shows the assembly of the drive sleeve in the base.

[0035] Figure 13 This is a schematic diagram of the drive sleeve in this utility model;

[0036] Figure 14 This is a schematic diagram of the fit between the drive shaft and the drive sleeve in this utility model.

[0037] Figures 1-14 The correspondence between the parts is as follows:

[0038] Juicing cylinder 100, feeding cylinder 200, juicing screw 300, filter assembly 400, base 500;

[0039] Juice outlet 101, slag outlet 102, hollow part 103, handle 104;

[0040] Cover 210, feed inlet 211;

[0041] Outer cylinder 410, inner cylinder 420, frustoconical connecting part 430;

[0042] Outer cylinder slot 411, outer cylinder rib 412, retaining ring 413, limiting groove 414, boss 415, arc-shaped part 416;

[0043] Inner cylinder rib 421, upper connecting ring 422, lower connecting ring 423, limiting lug 424, first ramp 425, second ramp 426, reinforcing rib 427, upper shearing blade 428, shearing blade reinforcing rib 429.

[0044] Buckle 431;

[0045] The pressing section 310, the cutting section 320, the shearing section 330, and the connecting shaft 340 are included.

[0046] Spiral rib 311, booster rib 312;

[0047] Cutting shaft 321, cutting edge 322;

[0048] Lower shear blade 331;

[0049] Drive shaft 510, drive sleeve 520, spiral rib 521, triangular rib 522. Detailed Implementation

[0050] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the embodiments described below are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those skilled in the art without creative effort are within the protection scope of the present utility model.

[0051] To provide a clearer explanation and description of the technical solution and implementation of this utility model, several preferred specific embodiments for implementing the technical solution of this utility model are introduced below.

[0052] It should be noted that the directional terms such as "inner" and "outer", "front" and "back" and "left" and "right" in this article are based on the product's usage status. Obviously, the use of these directional terms does not limit the scope of protection of this solution.

[0053] like Figure 1 , Figure 2 As shown, the juicing device provided by this utility model includes a juicing cylinder 100 and a feeding cylinder 200 detachably disposed on the upper end of the juicing cylinder 100. The upper end of the feeding cylinder 200 is provided with a cover 210, and the center of the cover 210 is provided with a feeding port 211, through which fruits, vegetables and other materials can be put into the feeding cylinder 200.

[0054] A juicing screw 300 is installed inside the juicing cylinder 100, and a filter assembly 400 is installed inside the juicing cylinder 100 and arranged around the juicing screw 300. The juicing cylinder 100 is mounted on a base 500, and a drive mechanism is installed inside the base 500. The drive mechanism is coupled to the juicing screw 300 to drive the juicing screw 300 to rotate and squeeze the material. The filter assembly 400 is used to separate the juice from the residue. The juice flows out from the juice outlet 101 on the juicing cylinder 100, and the residue is discharged from the residue discharge outlet 102 on the juicing cylinder 100.

[0055] The outer wall of the juicing cylinder 100 has a perforated section 103 that runs through the outer wall, thus forming a hidden handle 104. This design reduces the space occupied and makes it convenient to place and store.

[0056] like Figure 3As shown, the filter assembly 400 includes a cylindrical outer cylinder 410 and an inner cylinder 420, with the inner cylinder 420 coupled inside the outer cylinder 410. The outer cylinder 410 is integrally formed in the lower part of the feed cylinder 200. Specifically, the diameter of the outer cylinder 410 is smaller than the diameter of the feed cylinder 200, and the upper end of the outer cylinder 410 is connected to the lower end of the outer cylinder 410 through a frustoconical connecting part 430. Multiple snap fasteners 431 are also provided on the outer surface of the upper end of the frustoconical connecting part 430, and these snap fasteners 431 are evenly distributed circumferentially. The inner wall of the juicing cylinder 100 has slots that fit the snap fasteners 431. The outer cylinder 410 is rotatably engaged with the inner wall of the juicing cylinder 100 through the snap fasteners 431 and the slots, forming a detachable connection structure. The rotatable engagement structure is a mature existing design and will not be described in detail here.

[0057] The outer cylinder 410 includes a plurality of outer cylinder slots 411 evenly distributed along the circumference. The outer cylinder slots 411 extend along the axial direction of the outer cylinder 410. An outer cylinder rib 412 is formed between adjacent outer cylinder slots 411. The lower outer surface of the outer cylinder rib 412 is connected by a fixing ring 413.

[0058] The inner cylinder 420 includes a plurality of inner cylinder ribs 421 evenly distributed along the circumference. The inner cylinder ribs 421 extend along the axial direction of the inner cylinder 420. The upper end of the inner cylinder ribs 421 is connected and fixed by an upper connecting ring 422, and the lower end of the inner cylinder ribs 421 is connected and fixed by a lower connecting ring 423. The inner cylinder ribs 421 are adapted to the outer cylinder slots 411 on the outer cylinder 410.

[0059] The inner cylinder rib 421 is inserted into the outer cylinder slot 411 from bottom to top, so that the inner cylinder 420 is coupled into the outer cylinder 410. The gap between the inner cylinder rib 421 and the side wall of the outer cylinder slot 411 forms a filter hole through which the juice passes.

[0060] like Figure 3 , Figure 4 , Figure 5 As shown, the bottom surface of the fixing ring 413 of the outer cylinder 410 is provided with at least two limiting grooves 414 along the circumferential direction. The outer side surface of the lower connecting ring 423 of the inner cylinder 420 is provided with a limiting lug 424 that matches the limiting groove 414. The limiting lug 424 is embedded in the limiting groove 414 and is connected by an interference fit between the side walls, thereby realizing the circumferential limiting of the inner cylinder 420 and the outer cylinder 410.

[0061] The outer wall of the fixing ring 413 corresponding to the limiting groove 414 protrudes outward to form a boss 415. The outer side of the boss 415 has a concave arc-shaped part 416, which can be used to press down and remove the inner cylinder 420, making the operation convenient.

[0062] This application solution changes the traditional design where the filter assembly is independently installed inside the juicing cylinder. The traditional design requires manual disassembly of the filter assembly by reaching into the juicing cylinder, which is inconvenient and poses a risk of cuts. In this application solution, the outer cylinder 410 of the filter assembly 400 is integrally formed into the lower part of the feed cylinder 200. The filter assembly 400 can be disassembled along with the feed cylinder 200; that is, when the feed cylinder 200 is pulled upwards, the filter assembly 400 can be pulled out simultaneously, eliminating the need to reach into the juicing cylinder 100 to disassemble the filter assembly. This makes disassembly and cleaning convenient and quick.

[0063] In this application, the inner wall of the outer cylinder 410 is a frustum-shaped cone, wider at the bottom and narrower at the top. The outer wall of the inner cylinder 420 is adapted to the inner wall of the outer cylinder 410. The upper width of the outer cylinder slot 411 is smaller than the lower width, forming an isosceles trapezoid in its projected shape. This ensures a tight fit between the outer cylinder 410 and the inner cylinder 420, improving the fineness of the juice and the juice yield. The thickness of the outer cylinder ribs 412 gradually increases from bottom to top, thus forming a frustum-shaped inner wall structure.

[0064] The upper end of the inner cylinder rib 421 is provided with a first ramp 425, and the outer sides of the inner cylinder rib 421 are respectively provided with second ramps 426, so as to facilitate the inner cylinder rib 421 to be inserted into the outer cylinder slot 411 and achieve automatic centering.

[0065] The inner side of the inner cylinder rib 421 is provided with reinforcing ribs 427, which improves the strength of the outer cylinder rib 412 and extends its service life.

[0066] like Figure 6 , Figure 7 As shown, the juicing screw 300 in this application includes a pressing section 310 and a cutting section 320, which are connected by a shearing section 330. Both the pressing section 310 and the shearing section 330 are truncated cones, with the top smaller than the bottom.

[0067] The pressing section 310 has multiple spiral ribs 311 on the side of the truncated cone.

[0068] The cutting section 320 is arranged in a sheet-like spiral around the cutting shaft 321 and smoothly transitions to the outer circumferential surface of the shearing section 330. Multiple blades 322 are spaced apart on the outer surface of the cutting section 320. Large pieces of material such as apples are cut into smaller pieces by the blades 322 and fall into the pressing section 310.

[0069] Multiple lower shearing blades 331 are evenly distributed along the circumferential direction on the outer circumferential surface of the shearing part 330, and the lower shearing blades 331 extend radially along the shearing part 330.

[0070] like Figure 8 , Figure 9 , Figure 10As shown, the lower inner wall surface of the upper connecting ring 422 of the inner cylinder 420 is an inclined surface. Multiple upper shearing blades 428 are evenly distributed along the circumference on the inclined surface. The upper shearing blades 428 extend radially and match the lower shearing blades 331, which are used to cut coarse fibrous materials such as celery.

[0071] The inner end of the upper shear blade 428 protrudes from the inner wall surface of the upper connecting ring 422 and extends upward to form a cutting blade reinforcing rib 429 to improve the strength of the upper shear blade 428.

[0072] In this application, the cutting shaft 321 is eccentrically positioned relative to the pressing section 310, and the axis O2 of the cutting shaft 321 is inclined relative to the axis O1 of the pressing section 310. As a result, the cutting shaft 321 generates downward pressure during rotation, propelling the material into the pressing section 310 and improving pressing efficiency.

[0073] The height of the shearing section 330 is 1 / 5 to 1 / 6 of the height of the pressing section 310, and the height of the cutting section 320 is 0.8 to 1.2 times that of the pressing section 310. The outer contour lines connecting the cutting section 320, the shearing section 330, and the pressing section 310 are splayed. Specifically, the outer contour line of the cutting section 320 slopes inward from top to bottom, the outer contour line of the shearing section 330 slopes outward from top to bottom, and the outer contour line of the pressing section 310 slopes outward from top to bottom, as shown below. Figure 7 As shown by the dashed line.

[0074] This application optimizes the overall outer contour shape of the juicing screw 300, allowing the material to be quickly pushed into the pressing section after being cut into pieces and then gradually pressed, thus improving juicing efficiency and juice yield. During the pressing process, the pressing section 310, shearing section 330, and cutting section 320 all generate downward pressure during material extrusion, causing the juicing screw 300 to press tightly against the drive shaft of the drive device, reducing the noise generated by the vertical movement of the juicing screw 300 and the clearance between the parts.

[0075] In conventional designs, the spiral propulsion angle of the juicing screw 300 is typically 10 to 20 degrees to meet the pressing requirements. In this application, the spiral propulsion angle β of the spiral rib 311 is set to 25 to 35 degrees. This increased spiral propulsion angle accelerates the propulsion speed and improves juicing efficiency.

[0076] To further improve the juice yield, the present application also provides spindle-shaped booster ribs 312 between two adjacent spiral ribs 311. The booster ribs 312 have arc-shaped ends and a width smaller than the middle width (thick in the middle and thin at both ends) to balance the pushing and squeezing. Each booster rib 312 is symmetrically arranged between two adjacent spiral ribs 311, and the center of each booster rib 312 is at the same height from the bottom surface of the pressing section 310.

[0077] The booster rib 312 optimizes the efficiency of material conveying, extrusion, and juice extraction. Specifically, it offers the following advantages:

[0078] First, the booster ribs apply an additional radial force to the material through their gradually curved surface profile, forcing the material to move forward and reducing backflow or stagnation.

[0079] Second, the booster ribs form a secondary compression zone between adjacent spiral ribs, extending the time the material is under pressure and allowing the juice to be released more fully.

[0080] Third, the spindle-shaped design allows the tip to contact the material first, gradually increasing the pressure to avoid blockage caused by sudden compression.

[0081] Fourth, the edges of the booster ribs shear and tear fibers during rotation, disrupting cell wall structure, releasing more juice, and reducing the water content of residue.

[0082] Fifth, the spindle-shaped booster ribs divide large pieces of material through a diversion effect and guide them evenly into the extrusion zone, reducing the risk of material blockage.

[0083] In this application, the height of the booster rib is approximately 50% to 70% of the height of the spiral rib. If it is too high, it will increase drag; if it is too low, the effect will be insufficient.

[0084] like Figure 7 As shown, a connecting shaft 340 is provided on the bottom surface of the pressing section 310, and a spiral groove is provided on the outer circumferential surface of the connecting shaft 340, which is matched and connected to the drive shaft of the driving device.

[0085] Specifically, such as Figure 11 , Figure 12 As shown, the drive mechanism inside the base 500 includes a motor and a reducer that is matched and connected to the motor. The drive shaft 510 of the reducer extends out of the top surface of the base 500. A drive sleeve 520 is provided on the drive shaft 510. A spiral rib 521 is provided on the outer circumferential surface of the drive sleeve 520. The spiral rib 521 is adapted to the spiral groove on the connecting shaft 340, thereby driving the juicing screw 300 to rotate through the motor.

[0086] In this application, the drive sleeve 520 and the connecting shaft 340 of the juicing screw 300 are connected by a spiral structure. During operation, the spiral structure tightens the connection between the connecting shaft 340 and the drive sleeve 520, reducing operating noise. However, this design also makes disassembling the connecting shaft 340 and the drive sleeve 520 (juicing cylinder 100 and base 500) difficult. Therefore, this application optimizes the connection structure between the drive shaft 510 and the drive sleeve 520.

[0087] like Figure 12 , Figure 13 , Figure 14As shown, the drive shaft 510 adopts a double-flat shaft end structure, meaning that the two sides of the shaft end of the drive shaft 510 are symmetrically milled flat, and it consists of a connecting post and arc-shaped portions formed on two opposite surfaces of the connecting post. The bottom surface of the drive sleeve 520 has a connecting shaft hole, and two triangular protrusions 522 are symmetrically arranged on the inner wall of the connecting shaft hole. The distance between the two triangular protrusions 522 is adapted to the thickness of the connecting post of the drive shaft 510. The drive shaft 510 is inserted into the connecting shaft hole, and the arc-shaped portion of the drive shaft 510 is adapted to the inner wall surface of the connecting shaft hole. The triangular protrusions 522 are isosceles triangles.

[0088] The connection structure between the drive shaft 510 and the drive sleeve 520 provided in this application has a free movement angle of W2. During normal operation, the drive shaft 510 is in close contact with the first sidewall of the two triangular protrusions 52, driving the drive sleeve 520 to rotate. To solve the problem of difficult disassembly of the drive sleeve 520 and the connecting shaft 340 of the juicing screw 300 after operation, the solution in this application first controls the motor to reverse when the machine stops. Due to the free movement angle of W2, the drive shaft 510 can disengage from the first sidewall of the two triangular protrusions 52 that it is in close contact with during operation, rotate to be in contact with the second sidewall of the two triangular protrusions 52, and drive the drive sleeve 520 to reverse, so that the spiral structure between the drive shaft 510 and the drive sleeve 520 is loosened, thereby making it easy to remove the juicing cylinder 100 from the base 500.

[0089] When stopping the machine, first control the motor to reverse, which can be achieved using a program or double switch technology.

[0090] Based on the above description of specific embodiments, the juicing device and its filtering assembly provided by this utility model have the following advantages compared with the prior art:

[0091] First, the filter assembly includes a cylindrical outer cylinder and an inner cylinder. The outer cylinder is integrally formed at the lower part of the feed cylinder. The outer cylinder includes multiple outer cylinder slots evenly distributed along its circumference. The inner cylinder includes multiple inner cylinder ribs evenly distributed along its circumference. The inner cylinder ribs are adapted to the outer cylinder slots on the outer cylinder. The inner cylinder ribs are inserted into the outer cylinder slots from bottom to top, so that the inner cylinder is coupled inside the outer cylinder. The gap between the inner cylinder ribs and the sidewall of the outer cylinder slots forms the filter holes through which the juice passes. The filter assembly can be disassembled together with the feed cylinder without having to reach into the juicing cylinder to disassemble the filter assembly, making disassembly and cleaning convenient and quick.

[0092] Secondly, the inner wall of the outer cylinder is a frustum shape with a smaller top and a larger bottom. The outer wall surface of the inner cylinder matches the inner wall surface of the outer cylinder, and the outer and inner cylinders fit tightly together, which improves the fineness of the juice and the juice yield.

[0093] Third, the upper end of the inner cylinder rib is provided with a first slope, and the outer sides of the inner cylinder rib are provided with second slopes respectively, so as to facilitate the inner cylinder rib to be inserted into the outer cylinder slot and achieve automatic centering.

[0094] Finally, it should be noted that the terms "comprising," "including," or any other variations thereof as used herein are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such a process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising a…" does not exclude the presence of other identical elements in the process, method, article, or apparatus that includes said element.

[0095] This utility model is not limited to the above-described preferred embodiments. Anyone should know that structural changes made under the guidance of this utility model, and any technical solutions that are the same as or similar to this utility model, fall within the protection scope of this utility model.

Claims

1. A filtration assembly for a juicing device, comprising a cylindrical outer cylinder and an inner cylinder detachably coupled within the outer cylinder, characterized in that, The outer cylinder is integrally formed at the lower part of the feed cylinder of the juicing equipment. The outer cylinder includes a plurality of outer cylinder slots evenly distributed along the circumference. The outer cylinder slots extend along the axial direction of the outer cylinder. An outer cylinder rib is formed between adjacent outer cylinder slots. The lower outer surface of the outer cylinder rib is connected by a fixing ring. The inner cylinder includes a plurality of inner cylinder ribs evenly distributed along the circumference. The inner cylinder ribs are adapted to the outer cylinder slot. The upper end of the inner cylinder ribs is connected and fixed by an upper connecting ring, and the lower end is connected and fixed by a lower connecting ring. The inner cylinder ribs are inserted into the outer cylinder slot, so that the inner cylinder is coupled inside the outer cylinder. The gap between the inner cylinder ribs and the side wall of the outer cylinder slot forms a filter hole through which the juice passes.

2. The filtration assembly of the juicing device according to claim 1, characterized in that, The diameter of the outer cylinder is smaller than the diameter of the feed cylinder, and the upper end of the outer cylinder is connected to the lower end of the outer cylinder through a frustum-shaped connecting part.

3. The filtration assembly of the juicing device according to claim 2, characterized in that, The upper outer surface of the cone-shaped connecting part is provided with multiple buckles for rotating and engaging with the grooves on the inner wall of the juicing cylinder.

4. The filtration assembly of the juicing device according to claim 1, characterized in that, The bottom surface of the fixed ring is provided with at least two limiting grooves along the circumferential direction, and the outer side surface of the lower connecting ring is provided with limiting lugs that are adapted to the limiting grooves. The limiting lugs are embedded in the limiting grooves and connected by interference compression between the side walls.

5. The filtration assembly of the juicing device according to claim 4, characterized in that, The outer wall of the fixing ring corresponding to the limiting groove protrudes outward to form a boss, and the outer side of the boss has a concave arc-shaped part.

6. The filtration assembly of the juicing device according to claim 1, characterized in that, The inner wall of the outer cylinder is a frustum-shaped cone, smaller at the top and larger at the bottom, and the outer wall surface of the inner cylinder is adapted to the inner wall surface of the outer cylinder.

7. The filtration assembly of the juicing device according to claim 1, characterized in that, The upper width of the outer cylinder slot is smaller than the lower width, and the projected surface forms an isosceles trapezoid.

8. The filtration assembly of the juicing device according to claim 1, characterized in that, The upper end of the inner cylinder rib is provided with a first slope, and the outer sides of the inner cylinder rib are respectively provided with second slopes.

9. The filtration assembly of the juicing device according to claim 1, characterized in that, The inner side of the inner cylinder rib is provided with reinforcing ribs.

10. A juicing device, comprising a juicing cylinder and a feed cylinder detachably disposed at the upper end of the juicing cylinder, wherein a juicing screw is disposed inside the juicing cylinder, and a filter assembly is disposed around the juicing screw inside the juicing cylinder, characterized in that, The filter assembly is the filter assembly described in any one of claims 1 to 9.