Rice flour production feed equipment
By combining a sieve and a rolling mechanism, the rice noodles are rolled and dried, solving the problem of mixing qualified and unqualified rice noodles in rice noodle production and achieving more efficient rice noodle processing.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- JIANGXI LIANGLU FOOD CO LTD
- Filing Date
- 2025-06-13
- Publication Date
- 2026-06-05
Smart Images

Figure CN224321509U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of rice noodle production and processing technology, and more specifically, to a rice noodle production feeding device. Background Technology
[0002] Rice noodles are a type of rice product made from rice through processes such as soaking, steaming, and pressing. There are many varieties of rice noodles, including flat rice noodles, square rice noodles, wavy rice noodles, silver thread rice noodles, wet rice noodles, and dry rice noodles. During the production process, rice noodles require continuous addition of ingredients, necessitating feeding equipment. However, if the raw materials are stored together for extended periods, they are prone to clumping due to moisture and other factors, which can easily block the feeding device.
[0003] Existing rice noodle production feeding devices, such as the one described in patent CN216459074U, use horizontally arranged extrusion rollers to crush clumps of rice noodles into powder, which is then dried in a heating chamber. However, this device rapidly crushes the falling rice noodles, making it impossible to determine whether the crushing is sufficient. Furthermore, some substandard rice noodles fall from both sides of the extrusion rollers, resulting in a mixture of qualified and substandard noodles, requiring repeated processing and impacting efficiency. Utility Model Content
[0004] In view of the problems existing in the prior art, the purpose of this utility model is to provide a rice noodle production feeding device that can fully crush clumps of rice noodles.
[0005] To solve the above problems, the present invention adopts the following technical solution.
[0006] A rice noodle production feeding device includes:
[0007] Tank body;
[0008] An infeeding and discharging mechanism is installed on the tank body for introducing and discharging rice noodles;
[0009] A sieve disc, located inside the tank, is used to screen rice noodles that have passed the milling process.
[0010] The rolling mechanism includes a rolling component and a rotating component; the rolling component is disposed on the sieve plate and is in contact with the surface of the sieve plate, and is used to roll and crush the clumps of rice noodles that fall onto the sieve plate; the rotating component is disposed in the center of the tank and is connected to the rolling component, and is used to drive the rolling component to rotate around the tank.
[0011] The drying mechanism, located on the inner wall of the tank, is used to dry the residual moisture in the rice noodles.
[0012] The technical solution provided in this application example has at least the following technical effects:
[0013] The feeding equipment is equipped with a sieve and a rolling element. The rolling element is placed on the surface of the sieve. After the clumps of rice noodles fall onto the sieve surface, they are rolled and broken up by the rolling element. The drying mechanism dries the rolled rice noodles. After the rice noodles are dried, the crushed and qualified rice noodles are screened through the sieve and fall to the bottom of the tank. This allows the clumps of rice noodles to stay for a longer time and be processed more thoroughly, reducing the need for repeated processing due to the mixing of qualified and unqualified rice noodles and improving processing efficiency.
[0014] In some embodiments, the feeding and discharging mechanism includes an inlet disposed at the top of the tank for introducing rice noodles; and an outlet disposed at the bottom of the tank for discharging rice noodles.
[0015] In some embodiments, the bottom of the tank is inclined to facilitate the accumulation of rice flour; the discharge port is located at the bottom of the inclined surface.
[0016] In some embodiments, the screen is disposed below the feed inlet.
[0017] In some embodiments, the surface of the sieve disc is uniformly distributed with sieve holes for screening rice noodles.
[0018] In some embodiments, the rolling element includes:
[0019] The rotating rod is horizontally arranged inside the tank.
[0020] A roller is mounted on the rotating rod and its surface contacts the surface of the sieve disc, used to cooperate with the sieve disc to break up clumps of rice noodles.
[0021] In some embodiments, the rotating element includes:
[0022] A rotating shaft is vertically positioned in the center of the tank body to drive the rolling element to rotate;
[0023] A driver, the output of which is connected to a rotating shaft, is used to provide power. In some embodiments, the drying mechanism includes a heating element arranged in a ring on the inner wall of the tank for heating and drying rice noodles; the heating element is slightly higher than the sieve plate. Attached Figure Description
[0024] Figure 1 This is a top view of the structure of this utility model;
[0025] Figure 2 This is a cross-sectional internal structure diagram of the present invention.
[0026] The following are the labels in the diagram: 10, tank body; 20, feeding and discharging mechanism; 21, feed inlet; 22, discharge outlet; 30, sieve plate; 31, sieve hole; 40, rolling mechanism; 41, rolling component; 411, rotating rod; 412, roller; 42, rotating component; 421, rotating shaft; 422, driver; 50, drying mechanism; 51, heating component. Detailed Implementation
[0027] 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.
[0028] Please see Figure 1 and Figure 2 This application provides a rice noodle production feeding device, including a tank 10; a feeding / discharging mechanism 20, disposed on the tank 10, for introducing and discharging rice noodles; a sieve disc 30, disposed inside the tank 10, for screening and crushing qualified rice noodles; and a rolling mechanism 40, including a rolling element 41 and a rotating element 42. The rolling element 41 is disposed on and in contact with the surface of the sieve disc 30, for rolling and crushing clumps of rice noodles that fall onto the sieve disc 30; the rotating element 42 is disposed in the center of the tank 10 and connected to the rolling element 41, for driving the rolling element 41 to rotate around the tank 10. A drying mechanism 50 is disposed on the inner wall of the tank 10, for drying residual moisture in the rice noodles.
[0029] Understandably, the can 10 is a sealed container that prevents rice noodles from dispersing into the air. For example, it can be a sealed cylindrical can with the can 10 and lid integrally formed, or it can be a cylindrical can with a separate lid that can be detached from the can 10, etc., but is not limited to these. The feeding / discharging mechanism 20 is a component that transports rice noodle lumps into the can 10 in various ways, such as by manual pouring or by conveyor belt transport, etc., but is not limited to these. The sieve 30 is a component that screens qualified rice noodles and blocks unqualified rice noodles. For example, it can be a vibrating sieve 30 or a stationary sieve 30, etc., but is not limited to these. The rolling mechanism 40 is a component that crushes agglomerated powder. For example, it can be a single-roller rolling mechanism or a double-roller rolling mechanism, etc., but is not limited to these. The rolling element 41 is a component that presses onto the rice noodle lumps and crushes them by rolling. For example, it can be a flat rolling mechanism 40 or a roller rolling mechanism 40, etc., but is not limited to these. The rotating component is the part that drives the rolling component 41 to rotate. For example, it can be a motor rotating rod 411 mechanism, or a gear rotating mechanism, but it is not limited to these. The rolling component 41 cooperates with the sieve disc 30 to crush the clumps of rice flour on the sieve disc 30. The sieve disc 30 then filters out qualified rice flour, and the crushed rice flour is filtered out and then crushed again. Therefore, the rolling component 41 can be in contact with the sieve disc 30, or the sieve disc 30 can be mounted on a lifting mechanism. When rolling is needed, the lifting mechanism rises to contact the rolling component 41, and when filtering, it descends, etc., but it is not limited to these methods. The drying mechanism 50 is a component that heats the rice flour inside the tank 10 to dry the residual moisture in the rice flour. For example, it can be an infrared heating mechanism, or an electric heating mechanism, but it is not limited to these methods.
[0030] As can be seen from the above, the feeding device is equipped with a screen 30 and a rolling mechanism 40. The screen 30 and the rolling component 41 are in contact. The rotating component drives the rolling component 41 to press the clumps of rice noodles on the screen 30. Then, the drying mechanism 50 dries the internal moisture of the rice noodle clumps. Finally, the screen 30 screens the qualified rice noodles, so that all the rice noodles are fully crushed and processed, avoiding the occurrence of unqualified clumps of rice noodles.
[0031] As is known, in some embodiments, please refer to Figure 2 The feeding and discharging mechanism 20 includes an inlet 21 located at the top of the tank 10 for introducing rice noodles, and an outlet 22 located at the bottom of the tank 10 for discharging rice noodles. The bottom of the tank 10 is inclined to facilitate the accumulation of rice noodles, and the outlet 22 is located at the bottom of the inclined surface.
[0032] Understandably, the rice noodles are poured in through the inlet 21. There can be one inlet 21 or multiple inlets 21, but it is not limited to this. After processing, the rice noodles need to be concentrated at the outlet 22 and discharged to the outside. For example, the outlet 22 can be surrounded by slopes with the outlet 22 located at the lowest point, or a pushing mechanism can be installed at the outlet 22 to push the rice noodles towards the pusher, etc., but it is not limited to this.
[0033] With this design, the inclined surface can gather rice noodles towards the discharge port 22, improving the rice noodle output efficiency and preventing rice noodles from accumulating inside the tank 10.
[0034] As is known, in some embodiments, please refer to Figure 2 The sieve plate 30 is located below the feed inlet 21. The surface of the sieve plate 30 is evenly distributed with sieve holes 31 for screening rice flour.
[0035] Understandably, the sieve plate 30 holds rice flour and uses the sieve holes 31 on the surface of the sieve plate 30 to screen the ground rice flour. For example, it can be a round sieve hole or a square sieve hole, but it is not limited to these.
[0036] With this setup, the sieve plate 30 filters the rice noodles through the sieve holes 31, preventing unqualified clumped rice noodles from falling into the pile of qualified rice noodles.
[0037] As is known, in some embodiments, please refer to Figure 2 The rolling element 41 includes a rotating rod 411, which is laterally arranged inside the tank 10. A roller 412 is positioned above and in surface contact with the sieve disc 30, and is used to cooperate with the sieve disc 30 to break up clumps of rice flour.
[0038] Understandably, roller 412 is a component that rolls and presses rice noodles. For example, it can be a steel roller 412 or a ceramic roller 412, but it is not limited to these.
[0039] As is known, in some embodiments, please refer to Figure 2 The rotating component 42 includes a rotating shaft 421, which is vertically arranged in the center of the tank body 10 and is used to drive the roller 412 to rotate. The driver 422 has its output end connected to the rotating shaft 421 and drives the rotating shaft 421 to rotate.
[0040] Understandably, the rotating shaft 421 is fixedly connected to the rotating rod 411 of the rolling part 41, driving the rotating rod 411 to rotate. For example, it can be connected by welding or by threaded connection, but it is not limited to these.
[0041] With this configuration, the rotating component drives the roller 412 to move, and the roller 412 processes the rice noodles on the sieve plate 30 comprehensively, thus increasing the processing range.
[0042] As is known, in some embodiments, please refer to Figure 2 The drying mechanism 50 includes a heating element 51 arranged in a ring on the inner wall of the tank 10 for heating and drying rice noodles; the height of the heating element 51 is slightly higher than that of the sieve plate 30.
[0043] Understandably, the heating elements 51 are distributed throughout the tank 10 to maintain uniform heat distribution inside the tank 10 and enhance drying efficiency. For example, they can be arranged in a ring around the inner wall of the tank 10, or they can be arranged at the top and bottom of the tank 10, etc., but are not limited to these methods. The heating elements 51 should heat the rice flour crushed on the surface of the sieve plate 30, so the heating elements 51 can be located on the inner wall of the tank 10 at a height slightly higher than the sieve plate 30, or they can be located at the top of the tank 10, etc., but are not limited to these methods.
[0044] This configuration ensures that the heating element 51 is arranged in a ring shape, which guarantees that the heat inside the tank 10 rises steadily and is equal, thus improving drying efficiency.
[0045] As can be seen from the above, the rice noodles are first introduced into the tank 10, the rolling mechanism 40 is started, the rolling mechanism 40 drives the rotating part 32 to drive the rolling part 41 to slowly crush the rice noodles, and after crushing, the drying mechanism 50 dries the rice noodles. The dried rice noodles fall to the bottom of the tank 10, and then the discharge port 22 is opened to discharge the rice noodles in the tank 10.
[0046] The above description is merely a preferred embodiment of this utility model; however, the protection scope of this utility model is not limited thereto. Any equivalent substitutions or modifications made by those skilled in the art within the technical scope disclosed in this utility model, based on the technical solution and its improved concept, should be included within the protection scope of this utility model.
Claims
1. A rice noodle production feeding device, characterized in that, include: Tank body; An infeeding and discharging mechanism is installed on the tank body for introducing and discharging rice noodles; A sieve disc, located inside the tank, is used to screen rice noodles that have passed the milling process. The rolling mechanism includes a rolling component and a rotating component; the rolling component is disposed on the sieve plate and is in contact with the surface of the sieve plate, and is used to roll and crush the clumps of rice noodles that fall onto the sieve plate; the rotating component is disposed in the center of the tank and is connected to the rolling component, and is used to drive the rolling component to rotate around the tank. A drying mechanism is installed on the inner wall of the tank to dry the residual moisture in the rice noodles.
2. The rice noodle production feeding equipment as described in claim 1, characterized in that, The feeding and discharging mechanism includes an inlet located at the top of the tank for introducing rice noodles; and an outlet located at the bottom of the tank for discharging rice noodles.
3. The rice noodle production feeding equipment as described in claim 2, characterized in that, The bottom of the tank is inclined to facilitate the accumulation of rice flour; the discharge port is located at the bottom of the inclined surface.
4. The rice noodle production feeding equipment as described in claim 2, characterized in that, The screen plate is located below the feed inlet.
5. The rice noodle production feeding equipment as described in claim 1, characterized in that, The sieve disc has evenly distributed sieve holes for screening rice noodles.
6. The rice noodle production feeding equipment as described in claim 1, characterized in that, The rolled component includes: The rotating rod is horizontally arranged inside the tank. A roller is mounted on the rotating rod and its surface contacts the surface of the sieve disc, used to cooperate with the sieve disc to break up clumps of rice noodles.
7. The rice noodle production feeding equipment as described in claim 1, characterized in that, The rotating component includes: A rotating shaft is vertically positioned in the center of the tank body to drive the rolling element to rotate; A driver, the output of which is connected to a rotating shaft, is used to provide power.
8. The rice noodle production feeding equipment as described in claim 1, characterized in that, The drying mechanism includes a heating element arranged in a ring on the inner wall of the tank for heating and drying rice noodles; the height of the heating element is slightly higher than the sieve plate.