High-efficiency mixing device for pear juice
By introducing a pulverizing chamber and a filter plate into the pear juice mixing device, the problems of lack of pulverizing function and impurity collection in existing devices are solved, achieving efficient pulverization and uniform mixing of pear juice, and simplifying the replacement and maintenance process of the filter plate.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HEBEI XIAOYU BIOTECHNOLOGY CO LTD
- Filing Date
- 2025-07-16
- Publication Date
- 2026-06-26
AI Technical Summary
Existing pear juice mixing devices lack pulverizing capabilities and are inconvenient for collecting impurities.
A pear juice high-efficiency mixing device was designed, comprising a tank, a cover, an inlet pipe, an outlet pipe, a cleaning mechanism, a limiting mechanism, and a transmission assembly. The device crushes pears through a crushing box, filters impurities using a filter plate, and uses the transmission assembly to rotate the stirring shaft to mix the pear juice and other ingredients.
It achieves efficient crushing of pears and collection of impurities, improves filtration effect, and makes the pear juice and ingredients more evenly mixed, making it easier to disassemble and maintain the filter plate.
Smart Images

Figure CN224404992U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of mixing and stirring equipment technology, and in particular to a high-efficiency pear juice mixing device. Background Technology
[0002] High-efficiency pear juice mixing devices are typically used to thoroughly mix pear juice with other ingredients to improve the quality and taste of the pear juice.
[0003] Chinese patent document CN208852835U discloses a prickly pear juice mixing device, including a first mixing box and a second mixing box. The second mixing box is located on top of the first mixing box. First mounting blocks are welded to the upper parts of both sides of the outer wall of the first mixing box. Second mounting blocks are fixed to the top of the first mounting blocks by locking bolts. The second mixing box is welded to the side of the two second mounting blocks that are close to each other. A top plate is movably set on the top of the second mixing box, and a first drive motor is fixedly installed in the middle of the top plate. A mounting rod is fixedly connected to the output shaft of the first drive motor. Multiple mixing plates are installed on both sides of the mounting rod. A first baffle is set below the multiple mixing plates. The first baffle has an opening, and a first filter screen is installed in the opening by locking bolts. The structure is simple, the design is reasonable, it is easy to disassemble and maintain, reduces the cost of use, is convenient to use, and is suitable for promotion.
[0004] The existing technology has the following problems:
[0005] Although the mixing device works by starting the second drive motor, which drives the rotating column and spiral stirring blades to rotate, thus improving the mixing effect, the mixing device does not have a crushing function and is not convenient for collecting impurities. Utility Model Content
[0006] This invention provides a pear juice high-efficiency mixing device to solve the problems mentioned in the background art.
[0007] To solve the above-mentioned technical problems, the technical solution adopted by this utility model is as follows:
[0008] A pear juice high-efficiency mixing device includes a tank body, a cover body fixedly connected to the top of the tank body by bolts, a feed pipe fixedly connected to the left side of the tank body, a discharge pipe fixedly connected to the bottom of the tank body, a cleaning mechanism provided on the cover body, and a limit mechanism provided on the tank body.
[0009] The cleaning mechanism includes a crushing box fixedly connected to the top of the cover, a feed inlet fixedly connected to the top of the crushing box, and a control valve fixedly connected to the bottom of the crushing box.
[0010] The limiting mechanism includes a filter plate that is slidably connected to the inside of the tank. Positioning blocks are fixedly connected to both the front and back of the filter plate. A box is fixedly connected to the front of the tank.
[0011] Preferably, a support frame is fixedly connected to the top of the cover, a transmission assembly is provided on the support frame, a motor is fixedly installed on the top of the support frame, a rotating shaft is fixedly connected to the output shaft of the motor, a chamber is fixedly connected to the bottom of the rotating shaft, a crushing shaft is rotatably connected to the right side of the crushing box, a first bevel gear is fixedly connected to the outer side of the rotating shaft, and a second bevel gear is fixedly connected to the right side of the crushing shaft, with the outer sides of the first bevel gear meshing with the outer sides of the second bevel gear.
[0012] Preferably, the inner bottom wall of the cabin is inclined, and the cabin is provided with filter holes.
[0013] Preferably, the transmission assembly includes a worm gear rotatably connected to the inner wall of the back of the support frame, a threaded rod rotatably connected to the inner bottom wall of the support frame, a worm wheel fixedly connected to the outer side of the threaded rod, the outer side of the worm gear meshing with the outer side of the worm wheel, a sleeve threadedly connected to the outer side of the threaded rod, a connecting block fixedly connected to the top of the sleeve, a rotating rod rotatably connected to the inside of the connecting block, a third bevel gear fixedly connected to the left side of the rotating rod, the outer side of the first bevel gear meshing with the outer side of the third bevel gear, a shell fixedly connected to the right side of the tank, two symmetrically distributed stirring shafts rotatably connected to the right side of the tank, gears fixedly connected to the outer sides of both stirring shafts, pulleys fixedly connected to the outer side of the rotating rod and the outer side of the back stirring shaft, and a belt drivingly connected to the outer sides of the two pulleys.
[0014] Preferably, the inside of the housing is also connected to a limiting rod, a connecting plate is fixedly connected to the outside of the limiting rod, and a spring is sleeved on the outside of the limiting rod.
[0015] Preferably, the inner wall of the front side and the inner wall of the back side of the tank are provided with positioning grooves, and the outer side of the positioning block is slidably connected to the inner wall of the positioning groove.
[0016] Preferably, a limiting groove is provided on the front side of the positioning block, and the limiting rod is adapted to the limiting groove.
[0017] Compared with the prior art, the present invention has the following beneficial effects:
[0018] 1. This utility model provides a pear juice high-efficiency mixing device. By setting a cleaning mechanism, the pear is crushed, the pear juice is filtered through a filter plate, and then impurities in the pear juice are collected through the chamber, thereby increasing the filtering effect of the filter plate and facilitating subsequent cleaning of impurities.
[0019] 2. This utility model provides a pear juice high-efficiency mixing device. By setting a transmission component, it achieves the effect of stirring pear juice and ingredients. The two stirring shafts rotate relative to each other, thereby improving the stirring efficiency and making the pear juice and ingredients more evenly mixed.
[0020] 3. This utility model provides a pear juice high-efficiency mixing device. By setting a limiting mechanism, the filter plate is fixed in place, which facilitates quick disassembly and installation of the filter plate, improves the work efficiency during filter plate installation and disassembly, and facilitates filter plate replacement and maintenance. Attached Figure Description
[0021] Figure 1 This is a schematic diagram of the structure of this utility model;
[0022] Figure 2 This is a schematic diagram of the internal structure of this utility model;
[0023] Figure 3 This is a schematic diagram of the bottom of the structure of this utility model;
[0024] Figure 4 This is a schematic diagram of the cleaning mechanism structure of this utility model;
[0025] Figure 5 This is a schematic diagram of the transmission mechanism structure of this utility model;
[0026] Figure 6 This is a cross-sectional view of the cabin structure of this utility model;
[0027] Figure 7 This is a schematic diagram of the limiting mechanism of this utility model.
[0028] In the diagram: 1. Tank body; 2. Cover; 3. Feed pipe; 4. Discharge pipe; 5. Cleaning mechanism; 51. Crushing box; 52. Feed inlet; 53. Control valve; 54. Support frame; 55. Transmission assembly; 551. Worm gear; 552. Threaded rod; 553. Worm wheel; 554. Sleeve; 555. Connecting block; 556. Rotating rod; 557. Third bevel gear; 558. Shell; 559. Stirring shaft; 5510. Gear; 5511. Pulley; 5512. Belt; 56. Motor; 57. Rotating shaft; 58. Chamber; 59. Crushing shaft; 510. First bevel gear; 511. Second bevel gear; 6. Limiting mechanism; 61. Filter plate; 62. Positioning block; 63. Box body; 64. Limiting rod; 65. Connecting plate; 66. Spring. Detailed Implementation
[0029] To make the technical means, creative features, objectives and effects of this utility model easier to understand, the present utility model will be further described below in conjunction with specific embodiments.
[0030] like Figures 1-7 As shown, a pear juice high-efficiency mixing device includes a tank 1, a cover 2 fixedly connected to the top of the tank 1 by bolts, a feed pipe 3 fixedly connected to the left side of the tank 1, a discharge pipe 4 fixedly connected to the bottom of the tank 1, a cleaning mechanism 5 provided on the cover 2, and a limit mechanism 6 provided on the tank 1.
[0031] The cleaning mechanism 5 includes a crushing box 51 fixedly connected to the top of the cover 2, a feed inlet 52 fixedly connected to the top of the crushing box 51, and a control valve 53 fixedly connected to the bottom of the crushing box 51.
[0032] The limiting mechanism 6 includes a filter plate 61 that is slidably connected to the inside of the tank 1. Positioning blocks 62 are fixedly connected to both the front and back of the filter plate 61. A box 63 is fixedly connected to the front of the tank 1.
[0033] It should be noted that by setting the feed pipe 3, it is convenient to put the ingredients into the inside of the tank 1, and by setting the discharge pipe 4, it is convenient to discharge the pear juice from the inside of the tank 1.
[0034] like Figures 1-4 As shown, a support frame 54 is fixedly connected to the top of the cover 2. A transmission assembly 55 is provided on the support frame 54. A motor 56 is fixedly installed on the top of the support frame 54. A rotating shaft 57 is fixedly connected to the output shaft of the motor 56. A chamber 58 is fixedly connected to the bottom of the rotating shaft 57. A crushing shaft 59 is rotatably connected to the right side of the crushing box 51. A first bevel gear 510 is fixedly connected to the outer side of the rotating shaft 57. A second bevel gear 511 is fixedly connected to the right side of the crushing shaft 59. The outer side of the first bevel gear 510 meshes with the outer side of the second bevel gear 511.
[0035] It should be noted that pears are fed into the crushing chamber 51 through the feed inlet 52. The motor 56 is started, and its output shaft drives the rotating shaft 57 to rotate. The rotating shaft 57 drives the first bevel gear 510 to rotate, which in turn drives the second bevel gear 511 to rotate. The second bevel gear 511 then drives the crushing shaft 59 to rotate, thus crushing the pears. After thorough crushing, the control valve 53 is activated, causing the pear juice and impurities to fall into the tank 1 and onto the top of the filter plate 61 for filtration. Simultaneously, the rotating shaft 57 drives the chamber 58 to rotate on top of the filter plate 61, thereby... Impurities enter the interior of chamber 58 and are filtered through filter holes, allowing excess pear juice to be discharged. The pear juice then flows onto the inner bottom wall of tank 1, where it can be easily added to other ingredients via feed pipe 3. Simultaneously, the first bevel gear 510 drives the third bevel gear 557 to rotate, which in turn drives the rotating rod 556 to rotate. The rotating rod 556 drives the rear stirring shaft 559 to rotate via pulley 5511 and belt 5512. Then, the two gears 5510 drive the front stirring shaft 559 to rotate, causing the two stirring shafts 559 to rotate relative to each other, thus facilitating the mixing of pear juice and other ingredients and ensuring a uniform blend.
[0036] like Figures 1-4 As shown, the inner bottom wall of the cabin 58 is inclined, and filter holes are provided on the cabin 58.
[0037] It should be noted that this design facilitates the collection of impurities and also makes it easy to drain any residual pear juice from the impurities.
[0038] like Figures 1-5 As shown, the transmission assembly 55 includes a worm gear 551 rotatably connected to the inner wall of the back of the support frame 54. A threaded rod 552 is rotatably connected to the inner bottom wall of the support frame 54. A worm wheel 553 is fixedly connected to the outer side of the threaded rod 552. The outer side of the worm gear 551 meshes with the outer side of the worm wheel 553. A sleeve 554 is threadedly connected to the outer side of the threaded rod 552. A connecting block 555 is fixedly connected to the top of the sleeve 554. A rotating rod 556 is rotatably connected inside the connecting block 555. The left side of the rotating rod 556... A third bevel gear 557 is fixedly connected. The outer side of the first bevel gear 510 meshes with the outer side of the third bevel gear 557. A shell 558 is fixedly connected to the right side of the tank body 1. Two symmetrically distributed stirring shafts 559 are rotatably connected to the right side of the tank body 1. Gears 5510 are fixedly connected to the outer side of each of the two stirring shafts 559. Pulleys 5511 are fixedly connected to the outer side of the rotating rod 556 and the outer side of the rear stirring shaft 559. A belt 5512 is driven to the outer side of the two pulleys 5511.
[0039] It should be noted that when the worm 551 is rotated, the worm 551 drives the worm wheel 553 to rotate, the worm wheel 553 drives the threaded rod 552 to rotate, causing the connecting block 555 to move downward. The connecting block 555 drives the rotating rod 556 to move downward, thereby facilitating the disengagement of the belt 5512 from the outside of the disengagement pulley 5511, and then the cover 2 is removed from the top of the tank 1.
[0040] like Figures 1-7 As shown, a limiting rod 64 is also connected inside the housing 63. A connecting plate 65 is fixedly connected to the outside of the limiting rod 64, and a spring 66 is sleeved on the outside of the limiting rod 64.
[0041] It should be noted that when the limiting rod 64 is pulled, the limiting rod 64 causes the connecting plate 65 to squeeze the spring 66, so that the limiting rod 64 is pulled out from the inside of the limiting groove. Then, the positioning block 62 is pulled upward to facilitate the removal of the filter plate 61 from the inside of the tank 1, thereby facilitating the replacement and maintenance of the filter plate 61.
[0042] like Figures 1-7 As shown, positioning grooves are provided on both the front inner wall and the back inner wall of the tank 1, and the outer side of the positioning block 62 is slidably connected to the inner wall of the positioning groove.
[0043] It should be noted that this facilitates the positioning of the filter plate 61, and thus facilitates its installation.
[0044] like Figures 1-7 As shown, a limiting groove is provided on the front of the front positioning block 62, and the limiting rod 64 is adapted to the limiting groove.
[0045] It should be noted that this facilitates the installation and removal of the filter plate 61, thereby facilitating the replacement and maintenance of the filter plate 61.
[0046] The working principle of this utility model is as follows: When in use, pears are fed into the crushing chamber 51 through the feed inlet 52. The motor 56 is started, and the output shaft of the motor 56 drives the rotating shaft 57 to rotate. The rotating shaft 57 drives the first bevel gear 510 to rotate, the first bevel gear 510 drives the second bevel gear 511 to rotate, and the second bevel gear 511 drives the crushing shaft 59 to rotate, thereby crushing the pears. After thorough crushing, the control valve 53 is activated, causing the pear juice and impurities to fall into the tank 1 and onto the top of the filter plate 61. The filter plate 61 filters the pears. At the same time, the rotating shaft 57 drives the chamber 58 to rotate on the top of the filter plate 61, allowing impurities to enter the chamber 58. The impurities are filtered through the filter holes, and excess pear juice is discharged. The pear juice then flows onto the inner bottom wall of the tank 1, where it is convenient to add other ingredients through the feed pipe 3. At the same time, the first bevel gear 510 drives the third bevel gear 557 to rotate, and the third bevel gear 557 drives the crushing shaft 59 to rotate. Rotating rod 556 rotates, driving the rear stirring shaft 559 to rotate via pulley 5511 and belt 5512. Then, through two gears 5510, it drives the front stirring shaft 559 to rotate, causing the two stirring shafts 559 to rotate relative to each other. This facilitates the mixing of pear juice and ingredients, ensuring even distribution. Rotating worm gear 551 drives worm wheel 553 to rotate, which in turn drives threaded rod 552 to rotate, causing connecting block 555 to move downwards. Connecting block 555 then drives rotating rod 556 downwards, allowing belt 5512 to disengage from pulley 5511. The cover 2 is then removed from the top of tank 1. Pulling the limiting rod 64 causes connecting plate 65 to press spring 66, pulling the limiting rod 64 out of the limiting groove. Pulling the positioning block 62 upwards allows filter plate 61 to be easily removed from tank 1, facilitating replacement and maintenance.
[0047] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The embodiments and descriptions in the specification are merely illustrative of the principles of this utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of the claims. The scope of protection of this utility model is defined by the appended claims and their equivalents.
Claims
1. A high-efficiency mixing device for pear juice, comprising a tank body (1), characterized in that: The top of the tank (1) is fixedly connected to the cover (2) by bolts, the left side of the tank (1) is fixedly connected to the feed pipe (3), the bottom of the tank (1) is fixedly connected to the discharge pipe (4), the cover (2) is provided with a cleaning mechanism (5), and the tank (1) is provided with a limit mechanism (6). The cleaning mechanism (5) includes a crushing box (51) fixedly connected to the top of the cover (2), a feed inlet (52) fixedly connected to the top of the crushing box (51), a control valve (53) fixedly connected to the bottom of the crushing box (51), a support frame (54) fixedly connected to the top of the cover (2), a transmission assembly (55) provided on the support frame (54), a motor (56) fixedly installed on the top of the support frame (54), a rotating shaft (57) fixedly connected to the output shaft of the motor (56), a chamber (58) fixedly connected to the bottom of the rotating shaft (57), a crushing shaft (59) rotatably connected to the right side of the crushing box (51), a first bevel gear (510) fixedly connected to the outside of the rotating shaft (57), a second bevel gear (511) fixedly connected to the right side of the crushing shaft (59), and the outside of the first bevel gear (510) meshing with the outside of the second bevel gear (511). The limiting mechanism (6) includes a filter plate (61) that is slidably connected to the inside of the tank (1). The front and back of the filter plate (61) are fixedly connected to positioning blocks (62), and the front of the tank (1) is fixedly connected to a box body (63).
2. The pear juice high-efficiency mixing device according to claim 1, characterized in that: The inner bottom wall of the cabin (58) is inclined, and the cabin (58) is provided with filter holes.
3. The pear juice high-efficiency mixing device according to claim 1, characterized in that: The transmission assembly (55) includes a worm gear (551) rotatably connected to the inner wall of the back of the support frame (54). A threaded rod (552) is rotatably connected to the inner bottom wall of the support frame (54). A worm wheel (553) is fixedly connected to the outer side of the threaded rod (552). The outer side of the worm gear (551) meshes with the outer side of the worm wheel (553). A sleeve (554) is threadedly connected to the outer side of the threaded rod (552). A connecting block (555) is fixedly connected to the top of the sleeve (554). A rotating rod (556) is rotatably connected inside the connecting block (555). A third bevel gear (557) is fixedly connected to the left side. The outer side of the first bevel gear (510) meshes with the outer side of the third bevel gear (557). A shell (558) is fixedly connected to the right side of the tank (1). Two symmetrically distributed stirring shafts (559) are rotatably connected to the right side of the tank (1). Gears (5510) are fixedly connected to the outer side of both stirring shafts (559). Pulleys (5511) are fixedly connected to the outer side of the rotating rod (556) and the outer side of the rear stirring shaft (559). Belts (5512) are driven to the outer side of the two pulleys (5511).
4. The pear juice high-efficiency mixing device according to claim 1, characterized in that: The box (63) is also connected to a limiting rod (64), and a connecting plate (65) is fixedly connected to the outside of the limiting rod (64). A spring (66) is sleeved on the outside of the limiting rod (64).
5. The pear juice high-efficiency mixing device according to claim 4, characterized in that: The inner wall of the front side and the inner wall of the back side of the tank (1) are provided with positioning grooves, and the outer side of the positioning block (62) is slidably connected to the inner wall of the positioning groove.
6. The pear juice high-efficiency mixing device according to claim 4, characterized in that: The positioning block (62) is provided with a limiting groove on the front side, and the limiting rod (64) is adapted to the limiting groove.