Automatic feeding mechanism for brining runny yolk eggs

By designing an automatic feeding mechanism for marinated soft-boiled eggs, the automatic feeding of eggs is achieved by using a flipping component and a conveying mechanism, which solves the problem of low efficiency of manual feeding, improves production efficiency, and reduces labor intensity and impact force.

CN224336555UActive Publication Date: 2026-06-09JIANGSU YIYANG FOOD CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
JIANGSU YIYANG FOOD CO LTD
Filing Date
2025-05-26
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

In the current production of marinated soft-boiled eggs, the process of feeding stacks of eggs relies on manual operation, resulting in high labor intensity and low efficiency.

Method used

An automatic feeding mechanism for marinated soft-boiled eggs is designed. The mechanism utilizes a flipping component and a conveying mechanism to automate the feeding of eggs. The mechanism includes clamping an egg tray with a clamping plate and feeding the eggs one by one into a washing tank by rotating and moving the flipping component.

Benefits of technology

It reduces the need for manual feeding, improves feeding efficiency, reduces labor intensity, and reduces the impact force when eggs are put into water.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224336555U_ABST
    Figure CN224336555U_ABST
Patent Text Reader

Abstract

The utility model discloses a kind of automatic feeding mechanism of brining runny yolk egg, comprising;Washing tank, washing tank is filled with washing liquid;Base;Base is located at the side of washing tank;First conveying mechanism, first conveying mechanism drives egg and egg tray horizontal movement and up and down movement;Clamp plate, clamp plate clamps egg tray;Turnover assembly, turnover assembly drives clamp plate rotation;Clamp plate reciprocating overturning movement between washing tank and first conveying mechanism.The beneficial effects of the utility model are that, through the swing of turnover assembly, the action of manual feeding can be saved, while reducing manual labor, the action efficiency is improved.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This utility model relates to the field of braised egg production technology, and more specifically, to an automatic feeding mechanism for braised soft-boiled eggs. Background Technology

[0002] During the production of soft-boiled eggs, stacks of eggs need to be individually placed into a washing tank for initial cleaning. Currently, this is done manually, which is physically demanding and inefficient. Therefore, a device that can replace manual feeding is needed. Utility Model Content

[0003] To address the above deficiencies, this utility model provides an automatic feeding mechanism for marinated soft-boiled eggs, thus solving the aforementioned problems.

[0004] To achieve the above objectives, the present invention adopts the following technical solution:

[0005] An automatic feeding mechanism for marinated soft-boiled eggs includes:

[0006] The cleaning tank contains cleaning solution.

[0007] Base; The base is located on one side of the cleaning tank;

[0008] The first conveyor mechanism drives the eggs and egg tray to move horizontally and vertically.

[0009] Clamping plate, clamping plate to hold the egg tray;

[0010] The flipping component drives the clamping plate to rotate.

[0011] The clamp moves back and forth between the cleaning tank and the first conveyor mechanism.

[0012] Furthermore, a bracket is installed on the upper surface of the base, and a hydraulic cylinder is installed on the upper end of the bracket. The first transmission mechanism is installed on the first hydraulic cylinder.

[0013] Furthermore, the flipping assembly includes a vertical rod mounted on the base, a bearing mounted on the upper end of the vertical rod, the inner ring of the bearing being fixedly connected to the vertical rod, a rotating cylinder mounted on the outer ring of the bearing, a gear one mounted on one end of the rotating cylinder, a drive motor mounted on the vertical rod, and a gear two meshing with gear one mounted on the rotating end of the drive motor.

[0014] A rotating plate is installed on the side surface of the rotating drum, and a first telescopic rod is installed on the rotating plate. A clamping plate is installed on the telescopic end of the first telescopic rod.

[0015] Furthermore, a support rod is installed on the rotating plate, a baffle is installed on the support rod, a connecting plate is installed at one end of the rotating plate, and a second telescopic rod is installed between the connecting plate and the baffle. The two ends of the second telescopic rod are hinged to the connecting plate and the baffle, respectively.

[0016] The baffle acts as a barrier to the egg. When the second telescopic rod shortens, it causes the baffle to separate from the egg tray. The gap between the egg tray and the baffle gradually widens, and the egg rolls to one side along the baffle under the influence of gravity. This effectively reduces the height of the egg when it enters the water and reduces the impact force when the egg enters the water.

[0017] Furthermore, a notch is provided on one side of the upper end of the cleaning tank, and an inclined plate is installed on it, with a buffer plate installed at one end of the inclined plate.

[0018] When the clamp releases the egg tray, the egg tray slides down the baffle under the action of gravity. After the egg tray passes the baffle, it will slide down the inclined plate. The height of the inclined plate is lower than the movement path of the egg tray.

[0019] Furthermore, a second conveying mechanism is installed on the base.

[0020] The beneficial effects of this utility model are: by swinging the flipping component, the manual feeding action can be eliminated, reducing manual labor and improving efficiency. Attached Figure Description

[0021] Figure 1 This is a schematic diagram of the structure of an automatic feeding mechanism for braised soft-boiled eggs according to the present invention;

[0022] Figure 2 This is a top view of the plywood;

[0023] Figure 3 This is a side view of the baffle;

[0024] Figure 4 This is a diagram illustrating the state of the flip component;

[0025] In the diagram, 1. Cleaning tank; 2. Base; 3. First conveying mechanism; 4. Clamping plate; 5. Tilting assembly; 21. Bracket; 22. First hydraulic cylinder; 51. Vertical rod; 52. Bearing; 53. Rotary drum; 54. Gear 1; 55. Drive motor; 56. Gear 2; 57. Rotating plate; 58. First telescopic rod; 571. Support rod; 572. Baffle; 573. Connecting plate; 574. Second telescopic rod; 11. Notch; 12. Inclined plate; 13. Buffer plate; 31. Second conveying mechanism. Detailed Implementation

[0026] To make the above-mentioned objectives, features and advantages of this utility model more apparent and understandable, the specific embodiments of this utility model will be described in detail below with reference to the accompanying drawings.

[0027] This application provides an automatic feeding mechanism for marinated soft-boiled eggs. Please refer to [reference needed]. Figures 1-4 :include;

[0028] Cleaning tank 1 contains cleaning solution;

[0029] Base 2; Base 2 is located on one side of the cleaning tank 1;

[0030] The first conveyor mechanism 3 drives the eggs and egg tray to move horizontally and vertically.

[0031] Clamping plate 4, clamping plate 4 holds the egg tray;

[0032] Flip component 5, which drives clamping plate 4 to rotate;

[0033] The clamping plate 4 moves back and forth between the cleaning tank 1 and the first conveying mechanism 3.

[0034] In practical applications, the entire stack of eggs and egg trays is moved to the first conveyor mechanism 3 via an external conveyor belt. The first conveyor mechanism 3 can transfer the entire stack of eggs and egg trays to the clamping position of the clamping plate 4. The clamping plate 4 clamps the eggs and egg trays once each time. The distance by which the first conveyor mechanism 3 moves upward by one layer of eggs and egg trays is controlled so that the clamping position of the clamping plate 4 remains unchanged each time.

[0035] After clamping the egg tray, the clamping plate 4 is moved to a position above the washing tank 1 by the action of the flipping component 5. At this time, the eggs fall into the washing tank 1 under the action of gravity, thus achieving the purpose of automatic feeding.

[0036] Reference Figure 1 A bracket 21 is mounted on the upper surface of the base 2, and a hydraulic cylinder 22 is mounted on the upper end of the bracket 21. The first conveying mechanism 3 is mounted on the first hydraulic cylinder 22.

[0037] In practical applications, controlling the extension and retraction of the first hydraulic cylinder 22 can drive the first conveying mechanism 3 to move upward or downward. After the clamping plate 4 has taken away a layer of eggs and egg trays, the first hydraulic cylinder 22 is controlled to extend the distance of a layer of eggs and egg trays until all the eggs and egg trays have been taken away. At this time, the first hydraulic cylinder 22 is controlled to reset.

[0038] Reference Figure 1 , Figure 2 , Figure 3 and Figure 4 The flipping assembly 5 includes a vertical rod 51 mounted on the base 2, a bearing 52 mounted on the upper end of the vertical rod 51, the inner ring of the bearing 52 being fixedly connected to the vertical rod 51, a rotating cylinder 53 mounted on the outer ring of the bearing 52, a gear 54 mounted on one end of the rotating cylinder 53, a drive motor 55 mounted on the vertical rod 51, and a gear 56 meshing with the gear 54 mounted on the rotating end of the drive motor 55.

[0039] A rotating plate 57 is installed on the side surface of the rotating drum 53, and a first telescopic rod 58 is installed on the rotating plate 57. The clamping plate 4 is installed at the telescopic end of the first telescopic rod 58.

[0040] In practical applications, the forward rotation of the drive motor 55 can drive the second gear 56 to rotate, the second gear 56 drives the first gear 54 to rotate, the first gear 54 drives the rotating drum 53 and the rotating plate 57 to swing. When the rotating plate 57 swings to align with the egg tray, the first telescopic rod 58 is extended to drive the clamping plate 4 to clamp the egg tray.

[0041] The drive motor 55 reverses and moves the clamping plate 4 and egg tray to the top of the cleaning tank 1, and the eggs fall into the cleaning tank 1 under the action of gravity.

[0042] The drive motor 55 is controlled to rotate repeatedly, continuously feeding eggs into the washing tank 1.

[0043] Reference Figure 1 , Figure 2 and Figure 3 A support rod 571 is installed on the rotating plate 57, and a baffle 572 is installed on the support rod 571. A connecting plate 573 is installed at one end of the rotating plate 57, and a second telescopic rod 574 is installed between the connecting plate 573 and the baffle 572. The two ends of the second telescopic rod 574 are hinged to the connecting plate 573 and the baffle 572 respectively.

[0044] In practical applications, to reduce the impact force when eggs are dropped into water, after the clamping plate 4 holds the egg tray, the second telescopic rod 574 is extended. The extension of the second telescopic rod 574 causes one end of the baffle 572 to move upwards and the other end to move downwards, preventing the clamping plate 4 from falling off during rotation. After rotation to the correct position, as... Figure 4 As shown, the baffle 572 acts as a barrier to the egg. By controlling the second telescopic rod 574 to shorten, the baffle 572 is separated from the egg tray. The gap between the egg tray and the baffle 572 gradually widens, and the egg rolls to one side along the baffle 572 under the action of gravity. This can effectively reduce the height of the egg entering the water and reduce the impact force when the egg enters the water.

[0045] Reference Figure 1 The cleaning tank 1 has a notch 11 on one side of the upper end, and an inclined plate 12 is installed on the inclined plate 12. A buffer plate 13 is installed at one end of the inclined plate 12.

[0046] In practical applications, when the clamp 4 releases the egg tray, the egg tray slides down along the baffle 572 under the action of gravity. After passing the baffle 572, the egg tray will slide down along the inclined plate 12. The height of the inclined plate 12 is lower than the movement path of the egg tray.

[0047] Reference Figure 1 A second conveying mechanism 31 is installed on the base 2.

[0048] In practical applications, the egg tray falls onto the second conveyor mechanism 31 and can be automatically moved to the designated position.

Claims

1. An automatic feeding mechanism for brining runny yolks, characterized by, include; Cleaning tank (1), which contains cleaning solution; Base (2); Base (2) is located on one side of the cleaning tank (1); The first conveying mechanism (3) drives the eggs and egg tray to move horizontally and vertically. Clamping plate (4), clamping plate (4) holds the egg tray; The flipping component (5) drives the clamping plate (4) to rotate; The clamp (4) moves back and forth between the cleaning tank (1) and the first conveying mechanism (3).

2. The automatic brine-soaked egg feeding mechanism according to claim 1, wherein A bracket (21) is installed on the upper surface of the base (2), and a hydraulic cylinder (22) is installed on the upper end of the bracket (21). The first transmission mechanism (3) is installed on the first hydraulic cylinder (22).

3. The automatic mechanism for feeding halogen-soft-boiled egg according to claim 2, wherein The flipping assembly (5) includes a vertical rod (51) mounted on a base (2), a bearing (52) mounted on the upper end of the vertical rod (51), the inner ring of the bearing (52) being fixedly connected to the vertical rod (51), a rotating cylinder (53) mounted on the outer ring of the bearing (52), a gear one (54) mounted on one end of the rotating cylinder (53), a drive motor (55) mounted on the vertical rod (51), and a gear two (56) meshing with the gear one (54) mounted on the rotating end of the drive motor (55). A rotating plate (57) is installed on the side surface of the rotating drum (53), and a first telescopic rod (58) is installed on the rotating plate (57). A clamping plate (4) is installed on the telescopic end of the first telescopic rod (58).

4. The automatic mechanism for feeding halogen-processed runny yolk eggs according to claim 3, characterized in that, A support rod (571) is installed on the rotating plate (57), a baffle (572) is installed on the support rod (571), a connecting plate (573) is installed at one end of the rotating plate (57), a second telescopic rod (574) is installed between the connecting plate (573) and the baffle (572), and the two ends of the second telescopic rod (574) are hinged to the connecting plate (573) and the baffle (572) respectively.

5. The automatic mechanism for feeding halogen-soft-boiled egg according to claim 4, wherein The cleaning tank (1) has a notch (11) on one side of the upper end, and an inclined plate (12) is installed on the (11). A buffer plate (13) is installed at one end of the inclined plate (12).

6. The automatic mechanism for feeding halogen-soft-boiled egg according to claim 5, wherein A second transmission mechanism (31) is installed on the base (2).