A fruit and vegetable juice extraction apparatus
Through modular design and mechanical linkage innovation, and by adopting a double rotating plate lever structure and trapezoidal block rotation design, the problem of laborious operation and cumbersome cleaning of traditional fruit and vegetable juice extraction equipment is solved, achieving efficient juicing and convenient cleaning, and is suitable for home and small commercial scenarios.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- XINJIANG SHUANGQIAO FRUIT & VEGETABLE CO LTD
- Filing Date
- 2025-07-10
- Publication Date
- 2026-06-26
AI Technical Summary
Traditional fruit and vegetable juice extraction equipment is laborious and inefficient to operate, especially for hard fruits, which require a lot of physical effort. In addition, the filter screen is easily worn when connected to the main body, and disassembly and assembly are cumbersome and cleaning is difficult.
Adopting a modular design and mechanical linkage, it utilizes a double-rotating-plate lever structure to extend the human force arm, and combines the rotation design of trapezoidal blocks and rotating rings to achieve quick disassembly. The metal filter box and the fixed pressure ring can be easily separated through the trapezoidal hole and the cooperation of the protrusion. The design is simple and has no motor or blades, making it suitable for home and small commercial scenarios.
It significantly reduces operational intensity, improves juicing efficiency, simplifies the cleaning process, reduces manufacturing costs, adapts to the processing needs of multiple product categories, and prevents juice spillage and wear and loosening.
Smart Images

Figure CN224403368U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of fruit and vegetable juice technology, and in particular to a fruit and vegetable juice extraction device. Background Technology
[0002] With the popularization of healthy living concepts, the demand for fruit and vegetable juices continues to grow, and traditional juicing equipment faces the following technical bottlenecks:
[0003] The common method of direct pressing or spiral extrusion is laborious and inefficient. Especially when dealing with hard fruits such as apples and oranges, users need to exert a lot of physical strength, which can easily lead to hand fatigue with long-term use.
[0004] Some products attempt to save effort through lever structures, but disassembly and cleaning still require multiple steps. The filter screen and the main body are mostly connected by threads or clips, and frequent disassembly and assembly can easily lead to wear and loosening. Moreover, it is difficult to clean thoroughly after the filter holes become clogged.
[0005] This application addresses the aforementioned pain points by achieving a balance between efficient juicing and convenient cleaning through modular design and mechanical linkage innovation, making it particularly suitable for home and small commercial scenarios. Utility Model Content
[0006] The purpose of this invention is to address the shortcomings of existing juicing equipment, which generally uses direct pressing or spiral extrusion, resulting in laborious and inefficient operation. Especially when handling hard fruits such as apples and oranges, users need to exert considerable physical strength, which can easily lead to hand fatigue with prolonged use. Some products attempt to save effort through lever structures, but disassembly and cleaning still require multiple steps. The filter screen and the main body are mostly connected by threads or snaps, which can easily lead to wear and loosening with frequent disassembly and assembly, and the filter holes are difficult to clean thoroughly after clogging. Therefore, this invention proposes a fruit and vegetable juice extraction device.
[0007] To achieve the above objectives, the present invention adopts the following technical solution:
[0008] A fruit and vegetable juice extraction device includes a base, a fixing rod fixedly connected to the top of the base, a juicing bucket and a fixing inclined block fixedly sleeved on the outer wall of the fixing rod, and the juicing bucket being located between the base and the fixing inclined block;
[0009] The juicing assembly is detachably mounted on top of the juicing container;
[0010] An extrusion assembly is disposed on one side of the fixed inclined block;
[0011] A braking assembly is located at the bottom of the juicing container;
[0012] The squeezing component is operable to squeeze the fruit downwards, and the juice is discharged after being filtered by the juicing component. The braking component is operable to release the fixing of the juicing component, making it easy to disassemble and clean.
[0013] In one possible design, the juicing assembly includes a funnel box, a discharge pipe fixedly connected to the bottom of the funnel box, a mounting hole at the bottom of the juicing barrel, rectangular notches on both sides of the mounting hole, an annular groove on the outer wall of the discharge pipe, a rotating ring rotatably connected inside the annular groove, fixed protrusions fixedly connected to both sides of the rotating ring, the fixed protrusions engaging with the rectangular notches, and the discharge pipe engaging with the mounting hole.
[0014] In one possible design, a fixing ring is fixed to the inner wall of the funnel box, and trapezoidal protrusions are fixed to the inner walls of both sides of the fixing ring. The juicing assembly also includes a metal filter box, and a fixing ear plate is fixed to the bottom of the metal filter box. Trapezoidal holes are opened on both sides of the fixing ear plate, and the trapezoidal holes cooperate with the trapezoidal protrusions.
[0015] In one possible design, the extrusion assembly includes a sliding vertical rod that slides through a fixed inclined block, a limiting block fixed to the top of the sliding vertical rod, a pressure cap fixed to the bottom of the sliding vertical rod, first rotating plates rotatably connected to both sides of the fixed inclined block, a pressing handle fixed between the two first rotating plates, a second rotating plate rotatably connected to one side of the first rotating plate, and the two second rotating plates rotatably connected to both sides of the pressure cap respectively.
[0016] The pressing handle drives the first rotating plate to rotate, which in turn pushes the second rotating plate to make the pressure cap move vertically downward to squeeze the fruit.
[0017] In one possible design, the braking assembly includes two symmetrically slidingly connected connecting plates to the bottom of the juicing bucket, with a common tension spring between the two connecting plates. Both ends of the tension spring are connected to the connecting plates via hooks. A clearance hole is provided on one side of each connecting plate, and the clearance hole cooperates with a fixing protrusion.
[0018] In one possible design, a side extension block is fixed to one side of the juicing bucket, a pressing box is slidably fitted onto the outer wall of the side extension block, a compression spring is provided between the inner wall of one side of the pressing box and one end of the side extension block, and an L-shaped plate is fixed to the bottom of the pressing box, with one end of the L-shaped plate extending to the bottom of the juicing bucket.
[0019] In one possible design, after the fixed protrusion is inserted into the rectangular notch, the rotating ring is rotated to fix the discharge pipe, and the metal filter box is rotated to lock the trapezoidal hole with the trapezoidal protrusion.
[0020] In one possible design, one end of the L-shaped plate is fixed to a trapezoidal block, which is located between two connecting plates.
[0021] In this application, when using the product, the fruit to be juiced is cut in half and placed upside down on the top of the metal filter box. At this time, the pressing handle can be held, which drives the first rotating plate to rotate. The first rotating plate drives the second rotating plate to rotate, which in turn pushes the pressure cap down. The pressure cap is limited by the sliding vertical rod to ensure that the pressure cap can move vertically downward. When the pressure cap presses on the fruit, the juice can be squeezed out and discharged through the through hole of the metal filter box. After passing through the funnel box and the discharge pipe, it enters the cup to complete the juicing process.
[0022] After juicing, the device needs to be disassembled and cleaned. Press the pressing box, which moves the L-shaped plate laterally. The L-shaped plate then moves the trapezoidal block laterally, inserting it into the interior of the two connecting plates. At this point, the connecting plates move away from each other, thus preventing the clearance hole from engaging with the fixed protrusion. The braking state of the fixed protrusion and the rotating ring is released. Rotate the rotating ring so that it can rotate inside the annular groove. When the fixed protrusion is adjusted to be below the rectangular notch, the funnel box and discharge pipe can be removed from the inside of the juicing barrel. The metal filter box can then be rotated, causing the fixed ear plate to rotate. Once the trapezoidal hole aligns with the trapezoidal protrusion, the metal filter box can be removed, allowing for cleaning of the internal components. It is easy to use.
[0023] Beneficial effects: The double-plate lever structure, which drives the first plate to drive the second plate by pressing the handle, extends the manual force arm and enables the cap to be pressed down vertically, significantly reducing the intensity of operation. Fruit juice can be efficiently squeezed out with a single press, which is more efficient than traditional manual equipment.
[0024] The connecting plate is separated by pushing the trapezoidal block, which releases the engagement between the fixing protrusion and the clearance hole. Combined with the rotation design of the rotating ring and the annular groove, the funnel box and the discharge pipe can be quickly disassembled as a whole, avoiding the problem of fruit residue residue easily left in traditional threaded connections.
[0025] The metal filter box and the fixed pressure ring are connected by trapezoidal holes and trapezoidal protrusions, and can be separated by rotation, eliminating the risk of small parts falling out. The straight-through design of the filter holes facilitates water rinsing and improves cleaning efficiency.
[0026] The machine consists only of core modules such as the base, fixing rod, and juicing bucket, without complex parts such as motors and blades. The manufacturing cost is lower than that of electric juicers, making it suitable for large-scale popularization.
[0027] The sliding vertical rod limits the pressure cap, ensuring vertical pressure and preventing fruit slippage. The metal filter box fits tightly against the bottom of the juicing bucket to prevent juice from overflowing during juicing. The braking component automatically resets via a tension spring to prevent parts from falling off due to misoperation.
[0028] The funnel box and discharge pipe adopt a universal interface design, which can be adapted to cups of different capacities; the metal filter box has an adjustable pore size to meet the processing needs of multiple categories such as fruit and vegetable juice and milkshake, thus expanding the application scenarios of the equipment. Attached Figure Description
[0029] Figure 1 This is a three-dimensional structural diagram of a fruit and vegetable juice extraction device proposed in this utility model;
[0030] Figure 2 This is a three-dimensional structural diagram of a fruit and vegetable juice extraction device proposed in this utility model, excluding the juicing barrel.
[0031] Figure 3 This is a three-dimensional structural diagram of the juicing barrel in a fruit and vegetable juice extraction device proposed in this utility model;
[0032] Figure 4 Exploded view of the juicing barrel and lower limit plate in a fruit and vegetable juice extraction device proposed in this utility model;
[0033] Figure 5 This is an exploded view of the funnel box and metal filter box in a fruit and vegetable juice extraction device proposed in this utility model.
[0034] In the diagram: 1. Base; 2. Fixing rod; 3. Juicing bucket; 4. Fixing inclined block; 5. First rotating plate; 6. Limiting block; 7. Press handle; 8. Sliding vertical rod; 9. Second rotating plate; 10. Pressure cap; 11. Pressing box; 12. L-shaped plate; 13. Funnel box; 14. Side extension block; 15. Trapezoidal block; 16. Discharge pipe; 17. Rectangular notch; 18. Mounting round hole; 19. Compression spring; 20. Fixing protrusion; 21. Clearing hole; 22. Connecting plate; 23. Tension spring; 24. Trapezoidal hole; 25. Trapezoidal protrusion; 26. Metal filter box; 27. Fixing pressure ring; 28. Fixing ear plate; 29. Annular groove; 30. Rotating ring. Detailed Implementation
[0035] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present utility model. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments.
[0036] Example 1
[0037] Reference Figure 1-5 An extraction device, the specific implementation of which is as follows:
[0038] The base 1 of this fruit and vegetable juice extraction device is made of 304 stainless steel, with a 35 cm high fixing rod 2 welded to the top. A juicing bucket 3 and a fixing wedge 4 are sequentially fixed onto the fixing rod 2. The juicing bucket 3 is located between the base 1 and the fixing wedge 4, and its body is made of food-grade transparent PC material. The juicing assembly is placed on top of the juicing bucket 3, and its funnel box 13 is injection molded from PP plastic, with a one-piece discharge pipe 16 at the bottom. A 4 cm diameter mounting hole 18 is opened at the bottom of the juicing bucket 3, with symmetrical rectangular notches 17 on both sides of the hole. An annular groove 29 is machined on the outer wall of the discharge pipe 16, and a rotating ring 30 that can rotate 360 degrees is installed inside the groove. Stainless steel fixing protrusions 20 are welded to both sides of the rotating ring 30, and the size of the fixing protrusions 20 matches the rectangular notches 17. During installation, the fixing protrusions 20 are aligned with the rectangular notches 17 and inserted vertically. The rotating ring 30 is then rotated to make the protrusions engage with the bottom of the juicing bucket 3 to complete the fixation.
[0039] A silicone retaining ring 27 is embedded in the inner wall of the funnel box 13, and two trapezoidal protrusions 25 are symmetrically arranged on the inner wall of the retaining ring. A metal filter box 26 (316 stainless steel stamped mesh, 2 mm diameter) has a fixed ear plate 28 welded to its bottom. Trapezoidal holes 24 corresponding to the trapezoidal protrusions 25 are opened on both sides of the ear plate. During installation, the metal filter box 26 is placed into the funnel box 13 and rotated 30 degrees to engage and lock the trapezoidal holes 24 with the trapezoidal protrusions 25.
[0040] In the extrusion assembly, the sliding vertical rod 8 is a chrome-plated steel rod with a diameter of 12 mm, passing through the copper sleeve sliding hole of the fixed inclined block 4. A limiting block 6 is riveted to the top of the vertical rod, and a food-grade silicone pressure cap 10 is connected to the bottom. First rotating plates 5 (2 mm thick stainless steel plates) are mounted on both sides of the fixed inclined block 4 via M6 pins, and an ABS plastic pressing handle 7 is welded between the two rotating plates. The end of the first rotating plate 5 is connected to a second rotating plate 9 via a pin, and the end of the second rotating plate 9 is hinged to the lugs on both sides of the pressure cap 10. When the handle 7 is pressed down, the first rotating plate 5 pushes the second rotating plate 9, transmitting vertical pressure to the pressure cap 10.
[0041] This application can be used in the field of fruit and vegetable juices, or in other fields applicable to this application.
[0042] Example 2
[0043] refer to Figure 1-5An improvement on Embodiment 1: A fruit and vegetable juice extraction device, applied to the field of fruit and vegetable juice, includes a braking assembly comprising two symmetrically arranged 304 stainless steel connecting plates 22, which are slidably embedded in the guide grooves at the bottom of the juicing barrel 3. A tension spring 23 is installed between the two connecting plates 22, with hooks at both ends of the spring connecting to the side holes of the connecting plates 22. A clearance hole 21 is provided in the middle of the connecting plate 22, which, under normal conditions, is pulled by the spring to cause the edge of the clearance hole 21 to engage with the fixing protrusion 20. A side extension block 14 is welded to the side of the juicing barrel 3, and a slidable pressing box 11 is fitted on the outside (containing a 304 stainless steel compression spring 19 with a diameter of 15 mm inside). An L-shaped plate 12 is welded to the bottom of the pressing box 11, the end of which extends to the bottom of the juicing barrel 3 and fixes a trapezoidal block 15, the inclined surface of which faces the contact end of the two connecting plates 22.
[0044] During operation, place the halved fruit on the metal filter box 26, press down the handle 7 to drive the pressure cap 10 to squeeze the fruit, and the juice flows out through the discharge pipe 16 after being filtered through the metal filter box 26. For cleaning, press the pressure box 11 to push the L-shaped plate 12 so that the trapezoidal block 15 wedges between the two connecting plates 22, overcoming the tension of the tension spring 23 to separate the connecting plates 22, allowing the positioning hole 21 to disengage from the fixing protrusion 20. At this time, rotate the rotating ring 30 to align the fixing protrusion 20 with the rectangular notch 17, and then remove the funnel box 13 and the discharge pipe 16. Then rotate the metal filter box 26 to align the trapezoidal hole 24 with the trapezoidal protrusion 25, and remove the filter box for cleaning. For resetting, reverse the operation; the tension spring 23 automatically tightens the connecting plate 22 to lock the fixing protrusion 20.
[0045] The accompanying drawings in this application are for illustrative purposes only. The dimensions and shapes of the components shown are not actual limitations but are merely schematic representations. In actual implementation, the components can be reasonably configured and adjusted according to specific needs and actual conditions.
[0046] The above description is only a preferred embodiment of the present utility model, but the protection scope of the present utility model is not limited thereto. Any equivalent substitutions or changes made by those skilled in the art within the technical scope disclosed in the present utility model, based on the technical solution and the inventive concept of the present utility model, should be included within the protection scope of the present utility model.
Claims
1. A fruit and vegetable juice extraction device, characterized in that, include: A base (1) is fixedly connected to a fixing rod (2) at the top of the base (1). A juicer (3) and a fixing inclined block (4) are fixedly sleeved on the outer wall of the fixing rod (2). The juicer (3) is located between the base (1) and the fixing inclined block (4). Juicing assembly, detachably placed on top of the juicing bucket (3); An extrusion assembly is disposed on one side of the fixed inclined block (4); A braking assembly is located at the bottom of the juicing container (3); The squeezing component is operable to squeeze the fruit downwards, and the juice is discharged after being filtered by the juicing component. The braking component is operable to release the fixing of the juicing component, making it easy to disassemble and clean.
2. The fruit and vegetable juice extraction equipment according to claim 1, characterized in that, The juicing assembly includes a funnel box (13), a discharge pipe (16) is fixedly connected to the bottom of the funnel box (13), an installation round hole (18) is opened at the bottom of the juicing barrel (3), a rectangular notch (17) is opened on both sides of the installation round hole (18), an annular groove (29) is opened on the outer wall of the discharge pipe (16), a rotating ring (30) is rotatably connected inside the annular groove (29), a fixing protrusion (20) is fixedly connected to both sides of the rotating ring (30), the fixing protrusion (20) cooperates with the rectangular notch (17), and the discharge pipe (16) cooperates with the installation round hole (18).
3. The fruit and vegetable juice extraction equipment according to claim 2, characterized in that, The inner wall of the funnel box (13) is fixedly connected to a fixing ring (27), and trapezoidal protrusions (25) are fixedly connected to the inner walls of both sides of the fixing ring (27). The juicing assembly also includes a metal filter box (26), and a fixing ear plate (28) is fixedly connected to the bottom of the metal filter box (26). Trapezoidal holes (24) are opened on both sides of the fixing ear plate (28), and the trapezoidal holes (24) cooperate with the trapezoidal protrusions (25).
4. The fruit and vegetable juice extraction equipment according to claim 1, characterized in that, The extrusion assembly includes a sliding vertical rod (8) that slides through the fixed inclined block (4), a limiting block (6) is fixedly connected to the top of the sliding vertical rod (8), a pressure cap (10) is fixedly connected to the bottom of the sliding vertical rod (8), a first rotating plate (5) is rotatably connected to both sides of the fixed inclined block (4), a pressing handle (7) is fixedly connected between the two first rotating plates (5), a second rotating plate (9) is rotatably connected to one side of the first rotating plate (5), and the two second rotating plates (9) are rotatably connected to both sides of the pressure cap (10) respectively. The pressing handle (7) drives the first rotating plate (5) to rotate, and pushes the second rotating plate (9) to make the pressure cap (10) move vertically downward to squeeze the fruit.
5. The fruit and vegetable juice extraction equipment according to claim 1, characterized in that, The braking assembly includes two symmetrically sliding connecting plates (22) connected to the bottom of the juicing bucket (3). A tension spring (23) is provided between the two connecting plates (22). Both ends of the tension spring (23) are connected to the connecting plates (22) through hooks. A clearance hole (21) is opened on one side of the connecting plate (22), and the clearance hole (21) cooperates with the fixing protrusion (20).
6. The fruit and vegetable juice extraction equipment according to claim 5, characterized in that, A side extension block (14) is fixedly connected to one side of the juicing bucket (3). A pressing box (11) is slidably fitted on the outer wall of the side extension block (14). A compression spring (19) is provided between the inner wall of one side of the pressing box (11) and one end of the side extension block (14). An L-shaped plate (12) is fixedly connected to the bottom of the pressing box (11). One end of the L-shaped plate (12) extends to the bottom of the juicing bucket (3).
7. The fruit and vegetable juice extraction equipment according to claim 3, characterized in that, After the fixed protrusion (20) is inserted into the rectangular notch (17), the rotating ring (30) is rotated to fix the discharge pipe (16). The metal filter box (26) is rotated to make the trapezoidal hole (24) engage and lock with the trapezoidal protrusion (25).
8. The fruit and vegetable juice extraction equipment according to claim 6, characterized in that, One end of the L-shaped plate (12) is fixed to a trapezoidal block (15), which is located between two connecting plates (22).