A taro paste production raw material crushing device

By setting limit bars and baffles in the taro paste production device to adjust the size of the feeding port, the problem of uncontrolled feeding amount was solved, thereby reducing the burden on the equipment and improving the production efficiency of taro paste.

CN224443245UActive Publication Date: 2026-07-03GUI LIN XIN JING LIN FOOD CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
GUI LIN XIN JING LIN FOOD CO LTD
Filing Date
2025-07-21
Publication Date
2026-07-03

AI Technical Summary

Technical Problem

Existing fruit and vegetable crushing devices, when crushing taro, may cause uncontrollable feed rate due to the fixed size of the feed inlet, leading to problems such as crusher overload, motor overheating, equipment wear and blockage.

Method used

A crushing device for taro paste production raw materials was designed. By setting a limiting strip and a baffle in the feeding hopper, the size of the feeding opening is adjusted by the motor-driven gear and toothed plate to control the feeding amount. A receiving rack is set at the bottom of the crushing chamber for solid-liquid separation.

Benefits of technology

It enables control over the feed amount of taro of different sizes, avoids equipment overload, improves crushing efficiency, and enhances the efficiency and quality of taro paste production through solid-liquid separation.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224443245U_ABST
    Figure CN224443245U_ABST
Patent Text Reader

Abstract

This utility model belongs to the field of taro paste production technology, specifically relating to a taro paste production raw material crushing device. It includes a crusher body, a feed hopper on one side of the crusher body, a crushing chamber connected to the bottom surface of the feed hopper, a feeding hopper connected to the top surface of the feed hopper, a side plate connected to the inner wall surface of the feeding hopper, a limiting strip slidably connected to the side plate surface, the limiting strip surface connected to both sides of a baffle, and the baffle surface movably connected to a rectangular groove, which is formed on the surface of the feeding hopper. This utility model, through the mutual cooperation between the crusher body, feed hopper, crushing chamber, feeding hopper, side plate, limiting strip, baffle, rectangular groove, mounting plate, motor, gears, and toothed plates, adjusts the position of the baffle according to the size of the taro poured into the feeding hopper, thereby adjusting the size of the discharge port. This controls the feed amount of taro of different sizes, preventing excessive feed from burdening the crusher body and affecting the crushing efficiency.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This utility model belongs to the field of taro paste production technology, specifically relating to a taro paste production raw material crushing device. Background Technology

[0002] In today's food market, taro paste, with its unique sweet flavor and delicate texture, is widely popular in desserts, beverages, and baked goods. From taro milk tea and taro cakes to taro mochi, various taro products are constantly emerging and are highly favored by consumers, which has led to the continuous expansion of taro paste production. Traditional taro paste production relies heavily on manual grinding, which is inefficient and produces inconsistent quality, making it difficult to meet the demands of today's large-scale, standardized market. Against this backdrop, fruit and vegetable crushers, due to their high efficiency, stability, and adjustability, have been introduced into the raw material grinding stage of taro paste production. They can precisely adapt to the diverse shapes and textures of taro, efficiently producing fine and uniform taro paste raw materials, providing strong support for the large-scale, high-quality development of the taro paste industry.

[0003] Existing fruit and vegetable crushing devices typically feed taro into the hopper once and then let it fall by gravity. However, the fixed size of the feed opening may cause the feed amount to be uncontrollable when taro of different sizes is fed. If the feed amount is too large, it may overload the crusher, causing the motor to overheat, the equipment to wear out faster, and even blockage. Utility Model Content

[0004] The purpose of this utility model is to provide a crushing device for taro paste production raw materials, which aims to solve the problem that existing fruit and vegetable crushing devices, when crushing taro, generally feed the taro into the hopper once and then let it fall by gravity. However, the fixed size of the feed inlet may lead to uncontrollable feeding of taro of different sizes. When the feeding amount is too large, it may overload the crusher, causing the motor to overheat, the equipment to wear out faster, and even blockage.

[0005] To achieve the above objectives, this utility model provides the following technical solution: a taro paste production raw material crushing device, comprising a crusher body, a feeding hopper on one side surface of the crusher body, a crushing chamber connected to the bottom surface of the feeding hopper, a feeding hopper connected to the top surface of the feeding hopper, a side plate connected to the inner wall surface of the feeding hopper, a limiting strip slidably connected to the surface of the side plate, the limiting strip being connected to both sides of a baffle, a rectangular groove being movably connected to the surface of the baffle, the rectangular groove being opened on the surface of the feeding hopper, an mounting plate connected to the surface of the feeding hopper, a motor mounted on the top of the mounting plate, a gear connected to the transmission end surface of the motor, the other side of the gear being sleeved in a bearing on the top of the mounting plate, a toothed plate meshing with the top surface of the gear, the top surface of the toothed plate being connected to the bottom of the baffle, and a bottom plate connected to the bottom surface of the crusher body located at the bottom of the crushing chamber.

[0006] As a preferred embodiment of the taro paste production raw material crushing device of this utility model, a semi-circular groove is provided on one side surface of the side plate, and the shape and size of the groove are adapted to the limiting strip.

[0007] As a preferred embodiment of the taro paste production raw material crushing device of this utility model, the shape and size of the rectangular groove are adapted to the baffle.

[0008] In a preferred embodiment of the taro paste production raw material crushing device of this utility model, the baffle, motor, gear and toothed plate form an meshing connection structure.

[0009] As a preferred embodiment of the taro paste production raw material crushing device of this utility model, a limiting groove is formed on the surface of the bottom plate, a receiving box is inserted into the surface of the limiting groove, a slot is formed on the top of the inner wall of the receiving box, a protrusion is slidably connected to the surface of the slot, and a receiving rack is connected to the other side of the protrusion.

[0010] As a preferred embodiment of the taro paste production raw material crushing device of this utility model, the receiving box is provided with rectangular plates on both sides, and the shape and size of the rectangular plates are adapted to the limiting groove.

[0011] As a preferred embodiment of the taro paste production raw material crushing device of this utility model, the bottom of the receiving rack has a mesh structure.

[0012] Compared with the prior art, the beneficial effects of this utility model are:

[0013] Through the cooperation between the crusher body, feed hopper, crushing chamber, feeding hopper, side plate, limit strip, baffle, rectangular groove, mounting plate, motor, gear and toothed plate, the motor is started to drive the baffle to adjust the position according to the size of the taro poured into the feeding hopper, thereby adjusting the size of the feeding opening, thus controlling the feeding amount of taro of different sizes, avoiding excessive feeding amount from putting a burden on the crusher body and affecting the crushing efficiency of the taro;

[0014] By utilizing the interaction between the crushing chamber, bottom plate, limiting groove, receiving box, slot, protrusion and receiving rack, the crushed taro pieces and taro juice in the crushing chamber are separated, which facilitates the control of the viscosity of taro paste during subsequent processing and thus improves the production efficiency of taro paste. Attached Figure Description

[0015] The accompanying drawings are provided to further illustrate the present invention and form part of the specification. They are used together with the embodiments of the present invention to explain the present invention, but do not constitute a limitation thereof. In the drawings:

[0016] Figure 1 This is a schematic diagram of the main structure of this utility model;

[0017] Figure 2 This is a side view of the structure of this utility model;

[0018] Figure 3 This is an exploded structural diagram of the feeding hopper and baffle of this utility model;

[0019] Figure 4 This is an exploded structural diagram of the receiving box and receiving rack of this utility model.

[0020] In the diagram: 1. Crusher body; 2. Feed hopper; 3. Crushing chamber; 4. Feed hopper; 5. Side plate; 6. Limiting strip; 7. Baffle; 8. Rectangular groove; 9. Mounting plate; 10. Motor; 11. Gear; 12. Tooth plate; 13. Base plate; 14. Limiting groove; 15. Receiving box; 16. Slot; 17. Protrusion; 18. Receiving rack. Detailed Implementation

[0021] 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.

[0022] Please see Figures 1-4 This utility model provides the following technical solution: a crushing device for taro paste production raw materials, including a crusher body 1, a feeding hopper 2 on one side surface of the crusher body 1, a crushing chamber 3 connected to the bottom surface of the feeding hopper 2, a feeding hopper 4 connected to the top surface of the feeding hopper 2, a side plate 5 connected to the inner wall surface of the feeding hopper 4, a limiting strip 6 slidably connected to the surface of the side plate 5, the limiting strip 6 being connected to both sides of a baffle 7, the baffle 7 being movably connected to a rectangular groove 8, the rectangular groove 8 being opened on the surface of the feeding hopper 4, a mounting plate 9 connected to the surface of the feeding hopper 2, and a motor 10 mounted on the top of the mounting plate 9, the motor 10 driving... The end surface is connected to the gear 11, the top surface of the gear 11 meshes with the toothed plate 12, the other side of the gear 11 is sleeved in the bearing at the top of the mounting plate 9, the top surface of the toothed plate 12 is connected to the bottom of the baffle 7, the bottom of the crusher body 1 is located at the bottom surface of the crushing chamber 3 and connected to the bottom plate 13. In this design, the crusher body 1, the feed hopper 2 and the crushing chamber 3 form the main body of the fruit and vegetable crusher, and a large number of related components are set in the main body of the fruit and vegetable crusher. Since they are existing technologies and the core content of this technical solution is not related to them, they will not be described in detail in this technical solution.

[0023] The main model of the fruit and vegetable crusher in this solution is: RL-813 crusher.

[0024] Preferably, a semi-circular groove is provided on one side surface of the side plate 5, and the shape and size of the groove are adapted to the limiting strip 6.

[0025] In practical use, when the baffle 7 slides and adjusts its position on the inner wall of the side plate 5, the limiting strip 6 provided on the baffle 7 moves within the side plate 5, thereby limiting the range of movement of the baffle 7.

[0026] Preferably, the shape and size of the rectangular groove 8 are adapted to the baffle 7.

[0027] In practical use, the rectangular groove 8 opened on the feeding hopper 4 facilitates the movement of the baffle 7 on one side of the feeding hopper 4.

[0028] Preferably, the baffle 7, motor 10, gear 11 and toothed plate 12 form a meshing connection structure.

[0029] In practical use, the motor 10 is started so that its transmission end drives the gear 11 to rotate in the bearing sleeved on the other side, thereby causing the toothed plate 12 meshing with the top of the gear 11 to move away from the hopper 4.

[0030] Preferably, a limiting groove 14 is formed on the surface of the base plate 13, a receiving box 15 is inserted into the surface of the limiting groove 14, a slot 16 is formed on the top of the inner wall of the receiving box 15, a protrusion 17 is slidably connected to the surface of the slot 16, and a receiving rack 18 is connected to the other side of the protrusion 17.

[0031] In practical use, the receiving rack 18 embedded in the receiving box 15 can be removed according to the size of the taro pieces, and the receiving rack 18 with the corresponding gap size can be replaced. When the receiving rack 18 has collected a certain amount of material, the receiving box 15 can be pulled outward, and the receiving rack 18 can be removed from the receiving box 15. In this way, the taro liquid in the receiving box 15 and the taro pieces in the receiving rack 18 can be stored and used separately.

[0032] Preferably, the receiving box 15 has rectangular plates on both sides, and the shape and size of the rectangular plates are adapted to the limiting groove 14.

[0033] In practical use, the rectangular plates on both sides of the receiving box 15 are used to make it easy to insert and fix it in the limiting groove 14, thereby fixing its position on the bottom plate 13 and making it easy to fix its position at the bottom of the crushing chamber 3, so as to collect taro fragments and taro liquid.

[0034] Preferably, the bottom of the receiving rack 18 has a mesh structure.

[0035] In practical use, the mesh structure at the bottom of the receiving rack 18 facilitates solid-liquid separation of the falling taro pieces and taro liquid.

[0036] Working principle: When processing taro paste, the crusher body 1 is used to crush the taro to facilitate subsequent processing. The taro to be processed is poured into the feeding hopper 4. Then, the crushing mechanism in the crushing chamber 3 is started by the switch connected to the surface of the crusher body 1. Then, according to the size of the taro poured into the feeding hopper 4, the motor 10 is started so that its transmission end drives the gear 11 to rotate in the bearing sleeved on the other side. This causes the toothed plate 12 connected to the top of the gear 11 to move away from the feeding hopper 4. When the toothed plate 12 moves, the baffle 7 connected to its top is also driven to move away from the feeding hopper 4 in the rectangular groove 8 opened on the surface of the feeding hopper 4. This adjusts the size of the discharge port blocked between the baffle 7 and the feeding hopper 4 and the side plate 5. Then, the amount of taro fed into the feeding hopper 4 is adjusted according to the processing efficiency of the crusher body 1, so that the taro enters the crushing chamber 3 and is crushed by the crushing mechanism.

[0037] At this time, the crushed taro raw material falls directly into the receiving rack 18 through the discharge port at the bottom of the crushing chamber 3. Since the bottom of the receiving rack 18 is a mesh structure, when the falling taro residue and taro liquid fall into the receiving rack 18 together, the taro liquid falls into the receiving box 15 below through the mesh structure at the bottom of the receiving rack 18. The receiving rack 18 then separates the taro fragments and taro liquid into solid and liquid, making it easier to control the viscosity during subsequent taro paste processing. At the same time, during processing, the receiving rack 18 embedded in the receiving box 15 can be removed according to the size of the taro fragments, so as to replace the receiving rack 18 with a receiving rack 18 of the corresponding gap size. When the receiving rack 18 has collected a certain amount of material, the receiving box 15 is pulled outward, and the receiving rack 18 in the receiving box 15 is removed, so that the taro liquid in the receiving box 15 and the taro fragments in the receiving rack 18 can be stored and used separately.

[0038] Finally, it should be noted that the above are merely preferred embodiments of this utility model and are not intended to limit the utility model. Although the utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of this utility model should be included within the protection scope of this utility model.

Claims

1. A device for crushing raw materials for production of puree, comprising a body of a crusher (1), characterized in that: A feed hopper (2) is provided on one side surface of the crusher body (1). The bottom surface of the feed hopper (2) is connected to the crushing chamber (3). The top surface of the feed hopper (2) is connected to the feeding hopper (4). The inner wall surface of the feeding hopper (4) is connected to a side plate (5). A limiting strip (6) is slidably connected to the surface of the side plate (5). The surface of the limiting strip (6) is connected to both sides of a baffle (7). The surface of the baffle (7) is movably connected to a rectangular groove (8). The rectangular groove (8) is opened on the surface of the feeding hopper (4). The surface of the feed hopper (2) is connected to the mounting plate (9), the top of the mounting plate (9) is equipped with a motor (10), the transmission end surface of the motor (10) is connected to a gear (11), the top surface of the gear (11) is meshed with a toothed plate (12), the other side of the gear (11) is sleeved in the bearing at the top of the mounting plate (9), the top surface of the toothed plate (12) is connected to the bottom of the baffle (7), and the bottom of the crusher body (1) is located at the bottom surface of the crushing chamber (3) and connected to the bottom plate (13).

2. A cassava puree production raw material crushing device according to claim 1, characterized by: A semi-circular groove is provided on one side surface of the side plate (5), and the shape and size of the groove are adapted to the limiting strip (6).

3. A cassava mash production raw material crushing device according to claim 1, characterized by: The rectangular groove (8) is shaped and sized to match the baffle (7).

4. A cassava mash production raw material crushing device according to claim 3, characterized by: The baffle (7), motor (10), gear (11) and toothed plate (12) form a meshing connection structure.

5. A cassava puree production raw material crushing device according to claim 1, characterized in that: A limiting groove (14) is opened on the surface of the base plate (13), a receiving box (15) is inserted into the surface of the limiting groove (14), a slot (16) is opened on the top of the inner wall of the receiving box (15), a protrusion (17) is slidably connected to the surface of the slot (16), and a receiving rack (18) is connected to the other side of the protrusion (17).

6. A cassava mash production raw material crushing device according to claim 5, characterized by: The receiving box (15) has rectangular plates on both sides, and the shape and size of the rectangular plates are adapted to the limiting groove (14).

7. A cassava mash production raw material crushing device according to claim 5, characterized by: The bottom of the receiving rack (18) has a mesh structure.