A biomimetic bean product grouting device
By incorporating a multi-channel feeding zone and stirring rod design, combined with motor and cylinder control, the problems of clogging and uneven feeding in traditional soybean product filling devices have been solved, achieving efficient and precise slurry delivery and product consistency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- XIAOGAN KAILIAN FOOD CO LTD
- Filing Date
- 2025-07-07
- Publication Date
- 2026-06-05
Smart Images

Figure CN224320199U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of soybean product processing, and in particular relates to a biomimetic soybean product slurry filling device. Background Technology
[0002] In the soybean product manufacturing industry, the slurry filling process is a crucial step that determines product quality and production efficiency. Currently, traditional soybean product slurry filling equipment faces numerous technical bottlenecks in actual production.
[0003] Traditional soybean product filling devices are prone to blockages in the feeding channel during operation, and it is difficult to ensure uniform material delivery, resulting in inconsistent soybean product quality and seriously affecting product consistency. On the other hand, the automation and precision of the connection control components are insufficient, making it difficult to control the opening and closing of the feeding port in real time according to production needs. This not only reduces production efficiency but also fails to meet the high-efficiency and precision requirements of modern soybean product production. Utility Model Content
[0004] In view of the above problems, the purpose of this utility model is to provide a biomimetic bean product slurry filling device, which aims to solve the problems that the material feeding channel is prone to blockage during operation of the existing biomimetic bean product slurry filling device, and that it is difficult to adjust the opening and closing of the material feeding port in real time according to production needs.
[0005] The present invention adopts the following technical solution:
[0006] The bean product feeding device includes a machine base, a fixed frame on the machine base, a slurry filling box on the fixed frame, a feeding hopper at the top of the slurry filling box, a base at the bottom of the slurry filling box, a row of baffles inside the slurry filling box, and a feeding interval between two adjacent baffles. The slurry filling box also includes a pair of rotatable stirring rods, which are rotatably installed in the baffles. The base has a pair of upper and lower feeding ports facing each feeding interval. A connecting component is provided between the upper and lower feeding ports inside the base. A cylindrical hole is opened in the base. The connecting component includes a connecting rod rotatably installed in the cylindrical hole. A connecting port is opened in the connecting rod corresponding to the feeding port. The fixed frame contains a feeding component for driving the connecting rod to rotate.
[0007] Furthermore, the end of the fixed frame is provided with a fixed seat on the machine platform, and the corresponding ends of the two stirring rods are inserted into the fixed seat and provided with rotating gears. The two rotating gears are meshed and installed. The fixed seat is provided with a drive motor, which is used to drive one of the stirring rods to rotate.
[0008] Furthermore, the corresponding end of the connecting rod is inserted into the fixed seat and is provided with a control gear. The feeding assembly includes a slide installed in the fixed seat, and a rack meshing with the control gear is provided in the slide. The fixed seat is provided with a control cylinder for driving the rack to slide.
[0009] Furthermore, the outlet of the base is wider at the top and narrower at the bottom.
[0010] Furthermore, the stirring rod is provided with short columns in each feeding zone.
[0011] The beneficial effects of this utility model are:
[0012] 1. Traditional devices often use a single discharge port or a simple partition structure, which can easily lead to material accumulation and blockage during the conveying process, resulting in inconsistent discharge volume in each feeding zone and affecting the product forming quality.
[0013] 2. Existing connecting components are mostly fixed channels or manually adjustable structures, making it difficult to adjust the opening and closing of the feed port in real time according to production needs. This results in low automation and a tendency for slurry leakage.
[0014] 3. The combined structure of the stirring rod and short column continuously agitates the slurry, preventing sedimentation and clumping, and reducing the risk of clogging. Attached Figure Description
[0015] Figure 1 This utility model provides an overall drawing of a biomimetic soybean product grouting device.
[0016] Figure 2 This utility model provides a cross-sectional schematic diagram of a biomimetic soybean product grouting device.
[0017] Figure 3 This is a schematic diagram of the feeding assembly provided by this utility model.
[0018] Figure 4 This utility model provides a schematic diagram of the interior of the grouting box. Detailed Implementation
[0019] To make the objectives, technical solutions, and advantages of this utility model patent clearer, the present utility model will be further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present utility model and are not intended to limit the scope of the present utility model.
[0020] To illustrate the technical solution described in this utility model, specific embodiments are described below.
[0021] For ease of explanation, only the parts relevant to the embodiments of this utility model are shown.
[0022] Combination Figure 1-4As shown, the bean product feeding device includes a machine base 1, a fixed frame 2 on the machine base 1, a slurry box 3 on the fixed frame 2, a feeding hopper 4 at the top of the slurry box 3, a base 5 at the bottom of the slurry box 3, a row of baffles 6 inside the slurry box 3, and a feeding interval between two adjacent baffles 6. The slurry box 3 also includes a pair of rotatable stirring rods 7, which are rotatably installed in the baffles 6. The base 5 has a pair of upper and lower feeding ports 8 facing each feeding interval. A connecting component is provided between the upper and lower feeding ports 8 inside the base 5. A cylindrical hole is provided inside the base 5. The connecting component includes a connecting rod 10 rotatably installed in the cylindrical hole. A connecting port 11 is provided in the connecting rod 10 corresponding to the feeding port 8. The fixed frame 2 contains a feeding component for driving the connecting rod 10 to rotate.
[0023] This device mainly consists of a machine base, a fixed frame, a grouting tank, and a base. The machine base serves as the supporting foundation, and the fixed frame is mounted on the machine base and supports the grouting tank. The feed hopper at the top of the grouting tank is used to inject soybean milk and other soybean product slurries, while the base at the bottom is responsible for discharging and grouting the slurry. Inside the grouting tank, a row of baffles divides it into multiple discharging zones, each corresponding to a pair of upper and lower discharging ports. By setting multiple discharging zones and cooperating with the connecting components, multi-channel synchronous discharging is achieved, ensuring consistent slurry flow at each discharging point.
[0024] Before grouting using this device, the connecting component is in the closed state, and the upper and lower discharge ports are not connected. First, the grout is poured into the hopper, flowing to each discharge zone. Then, the connecting component is activated, connecting the upper and lower discharge ports. The grout flows through the discharge ports and out of the base into the tray below. During the grout discharge process, the two stirring rods rotate, continuously stirring the grout.
[0025] During the slurry feeding process, the stirring rod thoroughly agitates the slurry, preventing sedimentation and clumping. The presence of short columns 12 on the stirring rod 7 within each feeding zone further enhances the agitation effect.
[0026] During the above process, when the connecting component is activated to connect the upper and lower discharge ports, the discharge component drives the connecting rod to rotate. Adjusting the rotation angle of the connecting rod adjusts the overlap area between the connecting port and the upper and lower discharge ports, thereby controlling the discharge volume of each discharge section.
[0027] As a preferred structure, such as Figure 1 , Figure 3The end of the fixed frame 2 is provided with a fixed base 13 on the machine platform. The corresponding ends of the two stirring rods 7 are inserted into the fixed base 13 and are provided with rotating gears 14. The two rotating gears 14 are meshed and installed. The fixed base is provided with a drive motor 15, which is used to drive one of the stirring rods 7 to rotate.
[0028] Throughout the entire feeding process, the two stirring rods remain in a rotating state. That is, when the drive motor starts, it drives the two stirring rods to rotate synchronously through the rotating gear. The stirring rods and the short column on them fully stir the slurry to prevent sedimentation and clumping.
[0029] In this device, such as Figure 3 The corresponding end of the connecting rod 10 is inserted into the fixed seat 13 and is provided with a control gear 16. The feeding assembly includes a slide 17 installed in the fixed seat 2. The slide 17 is provided with a spur rack 18 that meshes with the control gear. The fixed seat 2 is provided with a control cylinder 19 for driving the spur rack 18 to slide.
[0030] When the feeding assembly is used to drive the connecting rod to rotate, the control cylinder drives the rack to slide, and the rack drives the control gear to rotate the connecting rod. By adjusting the overlapping area of the connecting port and the upper and lower feeding ports, the output of each feeding section can be precisely controlled.
[0031] When the two feed ports of the same pair are connected, the slurry flows through the feed port and out of the outlet of the base. Figure 2 In this design, the outlet 20 of the base 5 is wider at the top and narrower at the bottom. This design of the base outlet facilitates the grout to converge at the outlet and enter subsequent stages in a more concentrated and stable state, ensuring the accuracy and consistency of the grouting process.
[0032] The above description is only a preferred embodiment of the present utility model and is not intended to limit the present utility model. Any modifications, equivalent substitutions and improvements made within the spirit and principles of the present utility model should be included within the protection scope of the present utility model.
Claims
1. A biomimetic bean product slurry filling device, characterized in that: The bean product feeding device includes a machine base, a fixed frame on the machine base, a slurry filling box on the fixed frame, a feeding hopper at the top of the slurry filling box, a base at the bottom of the slurry filling box, a row of baffles inside the slurry filling box, and a feeding interval between two adjacent baffles. The slurry filling box also includes a pair of rotatable stirring rods, which are rotatably installed in the baffles. The base has a pair of upper and lower feeding ports facing each feeding interval. A connecting component is provided between the upper and lower feeding ports inside the base. A cylindrical hole is opened in the base. The connecting component includes a connecting rod rotatably installed in the cylindrical hole. A connecting port is opened in the connecting rod corresponding to the feeding port. The fixed frame contains a feeding component for driving the connecting rod to rotate.
2. The biomimetic soybean product slurry filling device as described in claim 1, characterized in that: The fixed frame is located on the machine base and has a fixed seat at its end. The corresponding ends of the two stirring rods are inserted into the fixed seat and are equipped with rotating gears. The two rotating gears are meshed and installed. The fixed seat is equipped with a drive motor, which is used to drive one of the stirring rods to rotate.
3. The biomimetic soybean product slurry filling device as described in claim 2, characterized in that: The corresponding end of the connecting rod passes through the fixed seat and is provided with a control gear. The feeding assembly includes a slide installed in the fixed seat. The slide is provided with a spur rack that meshes with the control gear. The fixed seat is provided with a control cylinder for driving the spur rack to slide.
4. The biomimetic soybean product slurry filling device as described in claim 3, characterized in that: The outlet of the base is wider at the top and narrower at the bottom.
5. The biomimetic soybean product slurry filling device as described in claim 4, characterized in that: The stirring rod is equipped with short columns in each feeding zone.