A device for assisting in pouring

By designing an auxiliary material pouring device, the automated pouring of raw materials in soybean milk production was achieved through support, fixing, and guiding mechanisms. This solved the problems of time-consuming, labor-intensive, and labor-intensive traditional methods, and improved work efficiency.

CN224394060UActive Publication Date: 2026-06-23GUANGXI SHIBU DAIRY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
GUANGXI SHIBU DAIRY CO LTD
Filing Date
2025-08-08
Publication Date
2026-06-23

AI Technical Summary

Technical Problem

In the process of soy milk production, the traditional method of pouring out raw materials is time-consuming, labor-intensive, and inconvenient for changing containers.

Method used

An auxiliary feeding device was designed, including a support mechanism, a fixing mechanism, and a guiding mechanism. The burlap sack is fixed by a needle bar, the raw material is guided to fall by a guide plate, and the opening and closing of the feeding port is controlled by an opening and closing plate to achieve automated feeding.

Benefits of technology

It reduced labor intensity, improved work efficiency, simplified the process of changing containers, and enabled automated pouring and efficient transfer of raw materials.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224394060U_ABST
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Abstract

The utility model discloses an auxiliary material pouring device, including support mechanism, fixed establishment, guide material mechanism, support mechanism including frame, support leg, blanking plate, the frame horizontal arrangement, its inside vertical through -going, right -hand end opening, support leg be equipped with a plurality of, vertical respectively in the frame bottom, the blanking plate fixedly arranged in the frame inside, and its right -hand end is inclined downward, the fixed establishment is located in the blanking plate, the guide material mechanism is located in the blanking plate right -hand end, the utility model discloses can realize automatic blanking, save the effort, reduce the labor intensity, improve work efficiency.
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Description

Technical Field

[0001] This utility model belongs to the field of food production and processing technology, and in particular relates to an auxiliary feeding device. Background Technology

[0002] In the production and processing of soy milk, the raw materials such as soybeans are transported to the production plant in sacks. After the raw materials arrive at the plant, they need to be poured into containers and then transferred to the production and processing equipment using appropriate transfer equipment.

[0003] The traditional method of unloading raw materials usually involves opening the sack and having workers use a spoon or ladle to scoop the materials into a container. This method is time-consuming, labor-intensive, and inefficient. Another method is to directly lift the sack and dump the materials, but because the entire bag of raw materials is heavy, the labor intensity is extremely high. Also, once the container is full, it is not convenient to change to another container. Utility Model Content

[0004] The purpose of this utility model is to provide an auxiliary material pouring device to solve the technical problems mentioned in the background art.

[0005] To achieve the above objectives, the present invention adopts the following technical solution:

[0006] An auxiliary material feeding device includes a support mechanism, a fixing mechanism, and a guiding mechanism. The support mechanism includes a frame, legs, and a feeding plate. The frame is horizontally arranged with a vertical through-hole inside and an opening at the right end. Multiple legs are provided and are vertically arranged at the bottom of the frame. The feeding plate is fixed inside the frame and its right end is inclined downward. The fixing mechanism is located inside the feeding plate. The guiding mechanism is located at the right end of the feeding plate.

[0007] Furthermore, the fixing mechanism includes a needle bar; the needle bar is vertically arranged and positioned perpendicularly to the left side of the top surface of the feed plate, with its needle tip facing upwards.

[0008] Furthermore, the needle bar is provided with multiple needles spaced at intervals.

[0009] Furthermore, the material guiding mechanism includes a guide plate and side baffles; the guide plate is located at the right end of the unloading plate, and its right end is inclined downwards. The guide plate has a guiding section and an unloading section; the guiding section has a trapezoidal structure that is wider on the left and narrower on the right; the unloading section is located at the right end of the guiding section, and its front-to-back length is the same as the length of the right end of the guiding section; there are two side baffles, which are respectively vertically arranged on the front and rear sides of the top of the guide plate.

[0010] Furthermore, the material guiding mechanism also includes an upper baffle; there are two upper baffles, which are respectively vertically disposed on the top surface of the two side baffles, and the opposite side of the two upper baffles extends down the left and right center lines of the material plate.

[0011] Furthermore, a discharge port is provided on the top surface of the discharge section.

[0012] Furthermore, the front side of the feeding section is provided with an insertion port that communicates with the feeding port; the guiding mechanism also includes an opening and closing plate; the opening and closing plate enters the feeding port through the insertion port and can open or close the feeding port.

[0013] Furthermore, the left and right side walls of the feed inlet are provided with sliding grooves; the left and right sides of the opening and closing plate are provided with sliding rods that cooperate with the sliding grooves.

[0014] The working principle and process of this utility model are as follows:

[0015] First, place the container below the feed inlet of the guide plate, pull out the opening plate to open the feed inlet; then place the sack containing the raw material on the feed plate, insert the pin of the fixing mechanism into the sack to secure it. After the sack is secured, open the right end of the sack to allow the raw material to slide down the feed plate, enter the guide plate of the guiding mechanism, and continue sliding down the guide plate to the feed inlet, finally falling from the feed inlet into the container.

[0016] Once the container is full, insert the opening and closing plate through the through hole into the feeding port to close the feeding port. Remove the full container, replace it with an empty container, pull out the opening and closing plate again, open the feeding port, and allow the raw materials to continue to be fed into the empty container.

[0017] The advantages of this utility model compared to the prior art are as follows:

[0018] 1. This utility model, by setting up a support mechanism, a fixing mechanism and a guiding mechanism, can fix the sacks containing raw materials on an inclined feeding plate, so that the raw materials slide down the feeding plate into the guiding plate and are then discharged from the guiding plate, realizing automatic feeding, saving time and effort, reducing labor intensity and improving work efficiency.

[0019] 2. In the fixing mechanism of this utility model, by setting a needle bar, when the burlap sack is placed on the feeding plate, it can be inserted into the burlap sack to fix the burlap sack, prevent the burlap sack from slipping off, and not affect the feeding of raw materials. The structure is simple, convenient and practical.

[0020] 3. In the material guiding mechanism of this utility model, by setting an opening and closing plate, the discharge port of the material guiding plate can be opened or closed, which facilitates the replacement of the holding container and is convenient to use. Attached Figure Description

[0021] Figure 1This is a schematic diagram of the structure of this utility model;

[0022] Figure 2 This is a side view of the cutting plate of this utility model;

[0023] Figure 3 This is a schematic diagram of the material guiding mechanism of this utility model;

[0024] Figure 4 This is a schematic diagram of the connection structure of the guide plate of this utility model;

[0025] In the attached image:

[0026] 1-Support mechanism; 11-Frame; 12-Outrigger; 13-Cutting plate;

[0027] 2-Fixing mechanism; 21-Needle bar;

[0028] 3-Guiding mechanism; 31-Guiding plate; 311-Discharge port; 312-Groove; 32-Side baffle; 33-Upper baffle; 34-Opening and closing plate; 35-Slide rod. Detailed Implementation

[0029] To make the objectives, technical solutions, and advantages of this utility model clearer, the following detailed description is provided with reference to the accompanying drawings and preferred embodiments. However, it should be noted that many details listed in the specification are merely to provide the reader with a thorough understanding of one or more aspects of this utility model, and these aspects can be achieved even without these specific details.

[0030] like Figure 1-4 As shown, an auxiliary material feeding device includes a support mechanism 1, a guiding mechanism 3, and a fixing mechanism 2. The support mechanism 1 includes a frame 11, support legs 12, and a feeding plate 13. The frame 11 is horizontally arranged with a vertically continuous interior and an opening at the right end. Multiple support legs 12 are vertically arranged at the bottom of the frame 11. The feeding plate 13 is fixed inside the frame 11, with its right end inclined downwards. The fixing mechanism 2 is located inside the feeding plate 13. The guiding mechanism 3 is located at the right end of the feeding plate 13. A sack containing bean raw materials is transported to the feeding plate 13 of the support mechanism 1, and the sack is fixed in the support mechanism 1 by the fixing mechanism 2. After the sack is opened, the raw materials slide down the inclined feeding plate 13, enter the guiding mechanism 3, and then slide down from the guiding mechanism 3 into a container pre-placed below the guiding mechanism 3.

[0031] The fixing mechanism includes a needle bar 21; the needle bar 21 is vertically arranged and positioned perpendicularly to the left side of the top surface of the feed plate 13, with its needle tip facing upwards. When the burlap sack is placed on the feed plate 13, the needle bar 21 is inserted into the burlap sack to fix it on the feed plate 13 and prevent the burlap sack from slipping off the feed plate 13.

[0032] The needle bar 21 is provided with multiple needle bars spaced at intervals. Multiple needle bars 21 can improve the stability of fixing the burlap sack and further prevent the burlap sack from slipping.

[0033] The material guiding mechanism 3 includes a guide plate 31 and side baffles 32. The guide plate 31 is located at the right end of the feed plate 13, with its right end inclined downwards at the same angle as the feed plate 13. The guide section has a trapezoidal structure that is wider on the left and narrower on the right. The feed section has a rectangular structure and is located at the right end of the guide section, with its front-to-back length being the same as the right end of the guide section. Two side baffles 32 are provided, respectively perpendicularly located on the front and rear sides of the top of the guide plate 31. After the raw material slides down from the feed plate 13, it enters the guide plate 31 of the material guiding mechanism 3. The guide plate 31 tightens inwards, causing the raw material to fall in a concentrated manner into the container. The side baffles block the sides of the guide plate 31 to prevent the raw material from falling out from the sides of the guide plate 31.

[0034] The material guiding mechanism 3 also includes upper baffles 33; two upper baffles 33 are provided, each vertically disposed on the top surface of the two side baffles 32, and the opposite sides of the two upper baffles 33 extend towards the left and right center lines of the lower material plate 13. The upper baffles 33 block the upper part of the material guiding mechanism 3 to prevent the raw material from bouncing upwards and falling out.

[0035] The top surface of the feeding section is provided with a feeding port 311, and the front side of the feeding section is provided with an insertion port corresponding to the feeding port 311, which communicates with the feeding port 311. The guiding mechanism 3 also includes an opening and closing plate 34. The opening and closing plate 34 enters the feeding port 311 through the insertion port and can open or close the feeding port 311. By providing the feeding port 311, the raw materials can fall from the feeding port 311 in a concentrated manner, avoiding the raw materials from falling directly from the right end of the guiding plate 31 and falling outside the container due to inertia. By providing the opening and closing plate 34, the feeding port 311 can be opened or closed. The feeding port 311 is opened when feeding, and when the container is full and needs to be replaced, the feeding port 311 is closed for replacement, preventing the raw materials from continuing to fall during the replacement process.

[0036] The discharge port 311 has sliding grooves 312 on its left and right side walls; the opening and closing plate 34 has sliding rods 35 on its left and right sides that cooperate with the sliding grooves 312. Through the cooperation of the sliding rods 35 and the sliding grooves 312, the opening and closing plate 34 can smoothly open or close the discharge port 311.

[0037] The working principle of this utility model is as follows:

[0038] First, place the container below the discharge port 311 of the guide plate 31, pull out the opening plate 34 to open the discharge port 311; then place the sack containing the raw materials on the discharge plate 13, and insert the needle bar 21 of the fixing mechanism 2 into the sack to fix it. After the sack is fixed, open the right end of the sack to allow the raw materials to slide down the discharge plate 13 into the guide plate 31 of the guide mechanism 3, and continue to slide down the guide plate 31 to the discharge port 311, finally falling from the discharge port 311 into the container.

[0039] Once the container is full, insert the opening and closing plate 34 through the through hole into the feeding port 311, close the feeding port 311, remove the full container, replace it with an empty container, pull out the opening and closing plate 34 again, open the feeding port 311, and allow the raw material to continue to be fed into the empty container.

[0040] The above description is only a preferred embodiment of the present utility model. It should be noted that for those skilled in the art, several improvements and modifications can be made without departing from the principle of the present utility model, and these improvements and modifications should also be considered within the protection scope of the present utility model.

Claims

1. An auxiliary pouring device, comprising a supporting mechanism (1), a fixing mechanism (2), a guiding mechanism (3), characterized in that: The support mechanism (1) includes a frame (11), legs (12), and a feed plate (13); the frame (11) is horizontally arranged, with its interior vertically connected and open at the right end; multiple legs (12) are provided, each vertically arranged at the bottom of the frame (11); the feed plate (13) is fixedly arranged inside the frame (11), with its right end tilted downwards; the fixing mechanism (2) is located inside the feed plate (13); and the guiding mechanism (3) is located at the right end of the feed plate (13).

2. The device according to claim 1, wherein: The fixing mechanism includes a needle bar (21); the needle bar (21) is vertically arranged and is located on the left side of the top surface of the feed plate (13), with its needle tip facing upward.

3. A device according to claim 2, wherein: The needle bar (21) is provided with multiple needles spaced at intervals.

4. The device of claim 1, wherein: The material guiding mechanism (3) includes a material guiding plate (31) and a side baffle (32). The material guiding plate (31) is located at the right end of the material feeding plate (13), and its right end is inclined downward. The material guiding plate (31) is provided with a guide section and a feeding section. The guide section has a trapezoidal structure that is wider on the left and narrower on the right. The feeding section is located at the right end of the guide section, and its front-to-back length is the same as the length of the right end of the guide section. There are two side baffles (32), which are respectively vertically located on the front and back sides of the top of the material guiding plate (31).

5. A device according to claim 4, wherein: The material guiding mechanism (3) also includes an upper baffle (33); there are two upper baffles (33), which are respectively vertically arranged on the top surface of the two side baffles (32), and the opposite side of the two upper baffles (33) extends to the left and right center lines of the material plate (13).

6. The device of claim 4, wherein: The top surface of the feeding section is provided with a feeding port (311).

7. The device of claim 4, wherein: The front side of the feeding section is provided with an insertion port that communicates with the feeding port (311) at the position of the feeding port (311); the guiding mechanism (3) also includes an opening and closing plate (34); the opening and closing plate (34) enters the feeding port (311) through the insertion port and can open or close the feeding port (311).

8. A device according to claim 7, wherein: The feed inlet (311) has sliding grooves (312) on its left and right side walls; the opening and closing plate (34) has sliding rods (35) on its left and right sides that cooperate with the sliding grooves (312).