A fruit and vegetable juice extraction integrated device
By designing an integrated fruit and vegetable juicing equipment, and employing technologies such as bidirectional extrusion and inclined residue filter plates, the problems of low efficiency and incomplete juice-residue separation in traditional juicing equipment are solved, achieving efficient juice-residue separation and a clean juicing process.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHANDONG TAIJIADONGHENG BIOTECHNOLOGY CO LTD
- Filing Date
- 2025-08-20
- Publication Date
- 2026-07-14
AI Technical Summary
Traditional juicing equipment has low juicing efficiency, poor juice-to-residue separation, and inconvenient residue disposal, resulting in low juice yield and resource waste. Furthermore, the lack of effective sealing and collection devices affects the continuity and cleanliness of juicing.
The integrated fruit and vegetable juicing equipment includes a fruit and vegetable crushing component, a fruit and vegetable juicing component, and a residue filter plate. It crushes fruits and vegetables through bidirectional extrusion, and achieves juice and residue separation by combining an inclined residue filter plate and a rotating cap design. The fine filter box and stirring motor ensure the purity of the juice.
It improves juicing efficiency, achieves thorough separation of juice and pulp, prevents residue backflow, ensures the continuity and cleanliness of the juicing process, increases juice yield, and reduces resource waste.
Smart Images

Figure CN224482906U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of fruit and vegetable production technology, and in particular to an integrated fruit and vegetable juicing device. Background Technology
[0002] Fruit and vegetable juicing is the process of washing and chopping fresh fruits and vegetables, pressing them with juicing equipment to separate the juice, remove the residue, and retain the nutrients and natural flavor of the fruits and vegetables to make a liquid beverage. This allows people to conveniently obtain vitamins, minerals and other nutrients from fruits and vegetables while enjoying a refreshing taste.
[0003] A search revealed that the document with publication number "CN215898817U" mentions "a high-efficiency fruit juicing device, including a juicing device body, a feeding port at the top of the juicing device body, a baffle fixedly connected to the top of the feeding port, a sealing cover movably snapped onto the top of the baffle, a juicing chamber at the bottom of the feeding port, a filter plate at the bottom of the inner side of the juicing chamber, a power chamber fixedly connected to the bottom of the filter plate, a rotary motor fixedly connected to the bottom of the inner side of the power chamber, an output roller driven by the top of the rotary motor, a rotating rod driven by the output end of the output roller, an mounting ring fixedly connected to the outer wall of the rotating rod, a cutting blade fixedly connected to the outer wall of the mounting ring, and a storage chamber at the bottom of the juicing device body." During use, the saturation level of the juicing chamber and storage chamber can be observed through an observation port. Multiple sets of cutting blades can quickly cut a large amount of fruit, enabling simultaneous juicing and feeding, and processing a large amount of fruit at once, thus increasing the juicing speed.
[0004] However, traditional juicing equipment often suffers from low juicing efficiency, unsatisfactory juice-to-pulp separation, and inconvenient residue disposal. Traditional juicers use single-screw extrusion or simple centrifugal juicing methods, which cannot fully break down fruit and vegetable cells during juicing, resulting in low juice yield. Furthermore, the juice-to-pulp separation process is often incomplete, leaving a significant amount of juice residue in the pulp, leading to waste of fruit and vegetable resources. In addition, the lack of effective sealing and collection devices for residue can easily cause backflow, affecting the continuity and cleanliness of juicing.
[0005] Therefore, we provide an integrated fruit and vegetable juicing device to solve the above problems. Utility Model Content
[0006] To overcome the above shortcomings, this utility model provides an integrated fruit and vegetable juicing device.
[0007] To achieve the above objectives, this utility model provides the following technical solution:
[0008] An integrated fruit and vegetable juicing device includes a juicing chamber, a fruit and vegetable crushing component installed on the upper side of the juicing chamber, a fruit and vegetable juicing component installed on the inner side of the juicing chamber, the fruit and vegetable juicing component including fruit and vegetable squeezing rollers all installed on the inner side of the juicing chamber, a connecting gear connected to the end of each fruit and vegetable squeezing roller, a rotary motor connected to the outer side of the connecting gear, a waste inlet provided on the front side of the juicing chamber, and a juice collection hopper welded to the lower side of the juicing chamber.
[0009] As a further description of the above technical solution:
[0010] The fruit and vegetable crushing assembly includes a crushing tank welded to the upper side of the juicing chamber. An inlet is welded to the outer side of the crushing tank. A crushing motor is welded to the upper side of the crushing tank. A rotating rod is provided on the inner side of the crushing tank. Cutting blades are welded to the surface of the rotating rod. The crushing motor drives the rotating rod to rotate. The cutting blades are arranged in three sets in a cross pattern.
[0011] As a further description of the above technical solution:
[0012] The connecting gears are welded to the fruit and vegetable extrusion rollers, which are arranged in pairs. The rotary motor drives the fruit and vegetable extrusion rollers to rotate through the connecting gears. The two sets of connecting gears on the left and the two sets on the right rotate synchronously inward through the rotary motor.
[0013] As a further description of the above technical solution:
[0014] A residue filter plate is provided on the lower side of the fruit and vegetable extrusion roller. The residue filter plate is welded to the juicing chamber and is inclined at 30°.
[0015] As a further description of the above technical solution:
[0016] A rotating shaft is installed on the front side of the residue filter screen, and a cover is provided in the middle of the rotating shaft. The cover and the residue filter screen form a rotating structure through the rotating shaft, and the juicing chamber and the cover form a sealed structure.
[0017] As a further description of the above technical solution:
[0018] The end of the juice collection container is welded with a fine filter chamber, and the inner side of the fine filter chamber is connected to a fine filter screen box, which is drawer-shaped.
[0019] As a further description of the above technical solution:
[0020] A spiral tube is welded to the lower side of the fine filter chamber, and a liquid storage tank is threaded to the lower side of the spiral tube. A stirring motor is installed on the lower side of the liquid storage tank, and a stirring rod is provided inside the liquid storage tank. The stirring motor drives the stirring rod to rotate.
[0021] Compared with the prior art, the beneficial effects of this utility model are:
[0022] 1. This utility model uses a fruit and vegetable juicing assembly with four fruit and vegetable squeezing rollers working in pairs. The rightmost rotary motor drives the fruit and vegetable squeezing roller to rotate to the right through a connecting gear. Due to the meshing relationship, the connecting gear outside the second fruit and vegetable squeezing roller drives the second fruit and vegetable squeezing roller to rotate to the left, forming bidirectional squeezing. The second fruit and vegetable squeezing roller then drives the third roller to rotate to the right, thus forming two sets of inward squeezing states, improving juicing efficiency. After the fruit and vegetable squeezing rollers crush and squeeze the fruits and vegetables, the juice is separated from the fruits and vegetables. At this time, the fruit and vegetable juice flows into the juice collection hopper through the mesh of the residue filter plate, while the residue is blocked by the residue filter plate, thus achieving juice and residue separation. Due to the inclined design of the residue filter plate, the residue can slide down more easily, making it easier to collect later.
[0023] 2. This utility model uses a fruit and vegetable juicing component. During the residue separation stage, the cap seals the residue in the juicing chamber through a rotating shaft. When the residue accumulates to a certain extent, the cap is opened for collection. This effectively prevents residue backflow and ensures the continuity and cleanliness of the juicing process. The juice falls into the juice collection hopper, where it undergoes secondary filtration through the mesh of a fine filter box. Since the fine filter box is drawer-shaped, it can collect more fine residue for easy unified processing later. Attached Figure Description
[0024] Figure 1 This is a schematic diagram of the overall appearance structure of this utility model;
[0025] Figure 2 This is a schematic diagram of the overall rear structure of this utility model;
[0026] Figure 3 This is a schematic diagram of the internal structure of the crushing tank of this utility model;
[0027] Figure 4 This is a schematic diagram of the internal structure of the juicing chamber of this utility model;
[0028] Figure 5 This is a schematic diagram of the mating structure of the residue filter screen and the cap inside the juicing chamber of this utility model;
[0029] Figure 6 This is a schematic diagram of the fit between the juice collection container and the stirring rod of this utility model.
[0030] The diagram is labeled as follows: 1. Juicing chamber; 2. Fruit and vegetable crushing assembly; 201. Crushing tank; 202. Feed inlet; 203. Crushing motor; 204. Rotating rod; 205. Cutter; 3. Fruit and vegetable juicing assembly; 301. Fruit and vegetable extrusion roller; 302. Connecting gear; 303. Rotating motor; 304. Waste outlet; 305. Residue filter screen; 306. Rotating shaft; 307. Cover; 308. Juice collection hopper; 309. Fine filter chamber; 310. Fine filter screen box; 311. Spiral tube; 312. Liquid storage tank; 313. Stirring motor; 314. Stirring rod. Detailed Implementation
[0031] 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 described embodiments 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 of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0032] Please see Figure 1-6 As shown, this utility model provides a technical solution: an integrated fruit and vegetable juicing device, including a juicing chamber 1, a fruit and vegetable crushing component 2 installed on the upper side of the juicing chamber 1, a fruit and vegetable juicing component 3 installed on the inner side of the juicing chamber 1, the fruit and vegetable juicing component 3 including fruit and vegetable squeezing rollers 301 all installed on the inner side of the juicing chamber 1, the ends of the fruit and vegetable squeezing rollers 301 are all connected to connecting gears 302, a rotary motor 303 is connected to the outer side of the connecting gears 302, a waste inlet 304 is provided on the front side of the juicing chamber 1, and a juice collection hopper 308 is welded to the lower side of the juicing chamber 1.
[0033] Furthermore, the fruit and vegetable crushing component 2 includes a crushing tank 201 welded to the upper side of the juicing chamber 1. An inlet 202 is welded to the outer side of the crushing tank 201, and a crushing motor 203 is welded to the upper side of the crushing tank 201. A rotating rod 204 is provided on the inner side of the crushing tank 201, and cutters 205 are welded to the surface of the rotating rod 204. The crushing motor 203 drives the rotating rod 204 to rotate. The cutters 205 are arranged in three sets in a cross pattern. When needed, the user puts the washed fruits and vegetables into the crushing tank 201 through the inlet 202. At this time, the crushing motor 203 starts, the rotating rod 204 rotates at high speed, and drives the cutters 205 to quickly crush the fruits and vegetables. Then the fruits and vegetables fall into the juicing chamber 1. This can crush the fruits and vegetables, which is convenient for subsequent juicing operations and improves the juice yield.
[0034] Furthermore, the connecting gear 302 is welded to the fruit and vegetable squeezing rollers 301. The fruit and vegetable squeezing rollers 301 are arranged in pairs. The rotary motor 303 drives the fruit and vegetable squeezing rollers 301 to rotate through the connecting gear 302. The two sets on the left and the two sets on the right of the connecting gear 302 rotate inward synchronously through the rotary motor 303. When needed, the four fruit and vegetable squeezing rollers 301 work in pairs. At this time, the rotary motor 303 on the far right drives the fruit and vegetable squeezing roller 301 to rotate to the right through the connecting gear 302. Due to the meshing relationship, the connecting gear 302 outside the second fruit and vegetable squeezing roller 301 will drive the second fruit and vegetable squeezing roller 301 to rotate to the left, forming bidirectional squeezing. The second fruit and vegetable squeezing roller 301 then drives the third one to rotate to the right, thus forming two sets of inward squeezing states, improving juicing efficiency.
[0035] Furthermore, a residue filter plate 305 is provided on the lower side of the fruit and vegetable squeeze roller 301. The residue filter plate 305 is welded to the juicing chamber 1. The residue filter plate 305 is inclined at 30°. When needed, the fruit and vegetable squeeze roller 301 crushes and squeezes the fruits and vegetables, and the juice will be separated from the fruits and vegetables. At this time, the fruit and vegetable juice will flow into the juice collection hopper 308 through the mesh of the residue filter plate 305, while the residue is blocked by the residue filter plate 305, thereby realizing the separation of juice and residue. Due to the inclined design of the residue filter plate 305, the residue can slide down more easily and be collected later.
[0036] Furthermore, a rotating shaft 306 is installed on the front side of the residue filter plate 305, and a cover 307 is set in the middle of the rotating shaft 306. The cover 307 and the residue filter plate 305 form a rotating structure through the rotating shaft 306, and the juicing chamber 1 and the cover 307 form a sealed structure. During the residue separation stage, the cover 307 blocks the residue in the juicing chamber 1 through the rotating shaft 306. When the residue accumulates to a certain extent, the cover 307 is opened for collection. This can effectively prevent the residue from flowing back and ensure the continuity and cleanliness of the juicing process.
[0037] Furthermore, a fine filter chamber 309 is welded to the end of the juice collection container 308. A fine filter screen box 310 is connected to the inner side of the fine filter chamber 309 via a slot. The fine filter screen box 310 is drawer-shaped. When needed, the juice will fall into the juice collection container 308 and undergo secondary filtration through the mesh of the fine filter screen box 310. Since the fine filter screen box 310 is drawer-shaped, it can collect more fine residue, which is convenient for unified processing later.
[0038] Furthermore, a spiral tube 311 is welded to the lower side of the fine filter chamber 309, and a liquid storage tank 312 is threadedly connected to the lower side of the spiral tube 311. A stirring motor 313 is installed on the lower side of the liquid storage tank 312, and a stirring rod 314 is provided inside the liquid storage tank 312. The stirring motor 313 drives the stirring rod 314 to rotate. When it is needed, the juice that has undergone secondary filtration will flow into the liquid storage tank 312. At this time, the stirring motor 313 drives the stirring rod 314 to rotate, stirring the juice evenly and preventing sedimentation.
[0039] Working principle: When needed, the juicing chamber 1 is moved to the desired position, and the washed fruits and vegetables are fed into the crushing tank 201 through the feed inlet 202. At this time, the crushing motor 203 drives the cutter 205 to rotate through the rotating rod 204, chopping the fruits and vegetables. The chopped fruits and vegetables fall into the juicing chamber 1. Then, the rotating motor 303 drives the fruit and vegetable pressing roller 301 to rotate through the connecting gear 302, squeezing the fruit and vegetable pieces into juice. At this time, the juice flows into the juice collection hopper 308 through the residue filter plate 305, while the residue is intercepted by the residue filter plate 305. When the residue accumulates to a certain point... After a certain period of time, the cap 307 is opened by the rotating shaft 306 to discharge the residue. Some fruits and vegetables that were not caught by the fruit and vegetable squeezing roller 301 are taken out from the waste outlet 304. Then, the fruit and vegetable juice flows into the juice collection hopper 308 and undergoes secondary filtration through the fine filter screen box 310 in the fine filter chamber 309 to ensure the purity of the juice. Finally, it flows into the storage tank 312 in the spiral tube 311. The stirring motor 313 will drive the stirring rod 314 to stir the juice in the storage tank 312 at all times. This completes the use process of an integrated fruit and vegetable juicing equipment.
[0040] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.
Claims
1. An integrated fruit and vegetable juicing device, comprising a juicing chamber (1), characterized in that: The upper side of the juicing chamber (1) is equipped with a fruit and vegetable crushing component (2), and the inner side of the juicing chamber (1) is equipped with a fruit and vegetable juicing component (3). The fruit and vegetable juicing component (3) includes fruit and vegetable squeezing rollers (301) installed inside the juicing chamber (1). The ends of the fruit and vegetable squeezing rollers (301) are connected to connecting gears (302). The outer side of the connecting gears (302) is connected to a rotary motor (303). The front side of the juicing chamber (1) is provided with a waste inlet (304), and the lower side of the juicing chamber (1) is welded with a juice collection hopper (308).
2. The integrated fruit and vegetable juicing equipment according to claim 1, characterized in that, The fruit and vegetable crushing component (2) includes a crushing tank (201) welded to the upper side of the juicing chamber (1). The outer side of the crushing tank (201) is welded with a feed inlet (202). The upper side of the crushing tank (201) is welded with a crushing motor (203). The inner side of the crushing tank (201) is provided with a rotating rod (204). The surface of the rotating rod (204) is welded with cutters (205). The crushing motor (203) drives the rotating rod (204) to rotate. The cutters (205) are arranged in three sets in a cross pattern.
3. The integrated fruit and vegetable juicing equipment according to claim 1, characterized in that, The connecting gear (302) and the fruit and vegetable extrusion roller (301) are welded together. The fruit and vegetable extrusion roller (301) are arranged in pairs. The rotary motor (303) drives the fruit and vegetable extrusion roller (301) to rotate through the connecting gear (302). The two sets on the left and the two sets on the right of the connecting gear (302) rotate inward synchronously through the rotary motor (303).
4. The integrated fruit and vegetable juicing equipment according to claim 1, characterized in that, The fruit and vegetable extrusion roller (301) is provided with a residue filter plate (305) on its lower side. The residue filter plate (305) is welded to the juicing chamber (1). The residue filter plate (305) is inclined at 30°.
5. The integrated fruit and vegetable juicing equipment according to claim 4, characterized in that, A rotating shaft (306) is installed on the front side of the residue filter screen (305), and a cover (307) is provided in the middle of the rotating shaft (306). The cover (307) and the residue filter screen (305) form a rotating structure through the rotating shaft (306), and the juicing chamber (1) and the cover (307) form a sealing structure.
6. The integrated fruit and vegetable juicing equipment according to claim 1, characterized in that, The end of the juice collection container (308) is welded with a fine filter chamber (309), and the fine filter chamber (309) is connected to a fine filter screen box (310) in the inner groove. The fine filter screen box (310) is drawer-shaped.
7. The integrated fruit and vegetable juicing equipment according to claim 6, characterized in that, The fine filter chamber (309) is welded with a spiral tube (311) on its lower side. The spiral tube (311) is threadedly connected to a liquid storage tank (312). A stirring motor (313) is installed on the lower side of the liquid storage tank (312). A stirring rod (314) is provided on the inner side of the liquid storage tank (312). The stirring motor (313) drives the stirring rod (314) to rotate.